sentence1
stringclasses 10
values | sentence2
stringlengths 13
186
| label
stringclasses 2
values |
---|---|---|
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | A sheep's bladder is drawn over a hollow cup in old telephones. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | A disk of metal is transmitted through a telephone. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | The wire from a phone sends sound through the use of vibration. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Sounds carried to the brain are digitally recorded through electricity. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Antique telephones use animal skin or organs to record sound. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | When objects vibrate in the vacuum of space sound is generated. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Striking a piano string makes vibrations reach our eardrums through the air. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Telephones used to have film stretched over something hollow inside of them. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | People hit drums with sticks. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | The effect of a drumstick on a drum head is analogous to when a voice is transmitted through a telephone. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Ears contain membranes for catching vibrations and transmitting them to the nervous system. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Telephones used to be made from sheep's bladders. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Human brains can understand vibrations on the ear-drum and recover the voice that the vibrations resulted from. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Electric pianos also make vibrations in the air. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Brains can record sounds that thave been carried by the nervous system. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | The brain is a mechanical phenomenon. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Sheepskins vibrate to convey vocal information to pianos. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Telephones can have wires. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Sound can be conveyed over distances. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Sheep vibrate when they hear sounds from pianos. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | When sound falls on a metal disk in a telephone, that is similar to humans hearing voices with ears. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | The ear drum is connected to the nervous system | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | The nervous system reaches the telephone with electricity. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Electric hollow cups carry vibrations to the ear-drums of sheep. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Sheep put their ears next to drums to hear the vibrations they make. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Telephones are made of at least wires or metal disks. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Sound is transmitted over space by the electrically-charged wires in a telephone. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Striking a sheep with a small stick turns it into a telephone. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Cylinders are hollow inside like cups are. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Vibration is a kind of motion. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Sound can be carried to our brains by sheep. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Modern telephones use a film of sheepskin or a bladder drawn over a hollow cylinder to transmit sound vibrations. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | A piano string is an object. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Sound can be in multiple places over time if it passes over an electrically charged telephone wire. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Thick membranes can't be vibrated by striking blows. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Telephones can record sounds using a membrane. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Telephones are usually made of vibrating skin. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Old telephones weren't powered by electricity. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | The vibrations of a drum are set into motion by a blow striking its surface. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Something vibrates when people talk. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | The sound of a piano string is produced by the vibration of our eardrums. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Electricity is necessary for telephones to work. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Old telephones work by hitting the eardrum with a small stick. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | The telephone carries sound to our brains. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | A piano produces sound because the keys vibrate when they are struck by the pianist. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | An ear drum provides the same operational functionality as a piano string in the context of sound. | contradiction |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | Sound can be carried by vibratory waves or electric signals. | entailment |
Sound is due to the vibrations of objects. A piano string produces sound because of its vibration when struck, or pulled to one side and then released. This vibration sets the air in rapid motion, and the result is the recording of the sound on our ear-drums. In old telephones, this recording corresponds to a film of sheepskin or bladder drawn over a hollow cup or cylinder. When the head of a drum is struck with a small stick it vibrates. In this case the vibrations are set in motion by the blow, while in the telephone a similar phenomenon is the result of vibratory waves falling from the voice on the thin membrane, or disk of metal, in the transmitter. When these vibrations reach the ear-drum the nervous system, corresponding to electricity in the mechanical telephone, carries this sound to our brains where it is recorded and understood. In the telephone the wire, charged with electricity, carries the sound from one place to another. | If an object falls to the earth in atmospheric conditions, it can never produce sound. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Swallows are birds | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Swallows can fly | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | If birds are flying low, it is likely to be sunny soon | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | If birds are flying low, it is likely to be rainy or windy soon | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Pigs carrying straw to their sties can cause rain | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | When animals seek shelter, bad weather may be on the horizon. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | When chimney smoke ascends readily the weather is fine. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | There are many signs of coming weather changes. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Animals are a way to detect weather changes. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | When chimney smoke ascends readily then calm weather is ahead. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | An indication of fine weather is dew and fog. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Pigs bringing straw home might make you think that they're forecasting bad things. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Dew does not appear when it is windy. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Swallows are good forecasters in that they can predict precipitation. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Dew is an indicator of good weather. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Fog is a precursor for fine weather. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | When animals seek shelter bad weather is on its way. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Pigs carry straw to their sties when bad weather is on its way. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Fog is able to form in strong winds. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Dew is able to form under an overcast sky. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | All signs of weather change are generally known. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Animals out in the open signal bad weather. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Swallows are considered birds of making short trips. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | When one swallows food, rain or wind may be expected. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Swallowing too aggressively can cause dew. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Bird of long flight that hang about home and fly low can cause rain | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Birds try to swallow rain or wind | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | In good weather, animals spread over their usual range | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Mountain Dew is an indication of good weather | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | One can predict changes in the weather to some degree if they have the knowledge of signs. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | When pigs are flying low, you should expect wind. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Dew and fog are indications of unfavorable weather change. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Dew and fog are formations. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Pigs live in sties. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | When pigs ascend readily from chimneys and fly low, that is an indication of fine weather. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Birds that fly for a long time can be a good signal of weather changes. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Animals seek shelter when a favorable change in the weather is coming. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Fog can occur when the sky is overcast. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Fog and wind often co-occur. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Rain is a kind of unfavorable weather. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Birds are animals that can be used to predict the future weather with reasonable success. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | When smoke doesn't spread upward out of a chimney, the weather will likely worsen. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Animals usually spread over a particular range. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | When birds carry straw to the chimney, the weather will not change. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | When birds anticipate rain or wind, they don't fly as far as usual. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Drinking Mountain Dew with a straw in the rain is a lesser known way of favoring it. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Chimney smoke can generate enough wind to lift straw into the homes of swallows. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | When smoke from chimneys descends or hangs bad weather is probably coming your way. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | No weather formations can occur in very windy conditions. | contradiction |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Some signs of changing weather are very well known. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | When weather is about to change, there are often signs. | entailment |
There are other signs of a coming change in the weather known less generally. When birds of long flight, such as swallows and others, hang about home and fly low—rain or wind may be expected. Also when animals seek sheltered places, instead of spreading over their usual range: when pigs carry straw to their sties; and when smoke from chimneys does not ascend readily, an unfavourable change may be looked for. Dew, on the other hand, is an indication of fine weather. So is fog. Neither of of these two formations occurs under an overcast sky, or when there is much wind. | Smoke can come from chimneys or pig sties. | entailment |