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( ( ( ( ( There ( are ( ( three ( main types ) ) ( of ( emission nebulae ) ) ) ) ) , ) and ) ( all ( have ( ( very low ) ( gas densities ) ) ) ) ) . )

(ROOT (S (S (NP (EX There)) (VP (VBP are) (NP (NP (CD three) (JJ main) (NNS types)) (PP (IN of) (NP (NN emission) (NN nebulae)))))) (, ,) (CC and) (S (NP (DT all)) (VP (VBP have) (NP (ADJP (RB very) (JJ low)) (NN gas) (NNS densities)))) (. .)))

There are three main types of emission nebulae, and all have very low gas densities.

(ROOT (S (NP (NNS Gases)) (VP (VBP have) (NP (DT the) (JJS lowest) (NN density))) (. .)))

Gases have the lowest density.

neutral

( This ( ( ( ( is fortunate ) , ) ( since ( ( under ( ( the ( extreme conditions ) ) ( encountered ( in ( chemical ( and ( nuclear explosions ) ) ) ) ) ) ) ( , ( matter ( ( can usually ) ( be ( treated ( as ( ( a gas ) ( regardless ( of ( ( ( its density ) or ) ( original state ) ) ) ) ) ) ) ) ) ) ) ) ) ) . ) )

(ROOT (S (NP (DT This)) (VP (VBZ is) (ADJP (JJ fortunate)) (, ,) (SBAR (IN since) (S (PP (IN under) (NP (NP (DT the) (JJ extreme) (NNS conditions)) (VP (VBN encountered) (PP (IN in) (NP (JJ chemical) (CC and) (JJ nuclear) (NNS explosions)))))) (, ,) (NP (NN matter)) (VP (MD can) (ADVP (RB usually)) (VP (VB be) (VP (VBN treated) (PP (IN as) (NP (NP (DT a) (NN gas)) (ADVP (RB regardless) (PP (IN of) (NP (NP (PRP$ its) (NN density)) (CC or) (NP (JJ original) (NN state))))))))))))) (. .)))

This is fortunate, since under the extreme conditions encountered in chemical and nuclear explosions, matter can usually be treated as a gas regardless of its density or original state.

(ROOT (S (NP (NNS Gases)) (VP (VBP have) (NP (DT the) (JJS lowest) (NN density))) (. .)))

Gases have the lowest density.

neutral

( ( ( cool gas ) ( at ( low density ) ) ) . )

(ROOT (S (VP (VB cool) (NP (NN gas)) (PP (IN at) (NP (JJ low) (NN density)))) (. .)))

cool gas at low density.

(ROOT (S (NP (NNS Gases)) (VP (VBP have) (NP (DT the) (JJS lowest) (NN density))) (. .)))

Gases have the lowest density.

neutral

( ( ( dense gas ) ( fades faster ) ) ( , ( ( low ( density gas ) ) ( ( fades slower ) . ) ) ) )

(ROOT (S (S (NP (JJ dense) (NN gas)) (VP (VBZ fades) (ADVP (RBR faster)))) (, ,) (NP (JJ low) (NN density) (NN gas)) (VP (VBZ fades) (ADJP (JJR slower))) (. .)))

dense gas fades faster, low density gas fades slower.

(ROOT (S (NP (NNS Gases)) (VP (VBP have) (NP (DT the) (JJS lowest) (NN density))) (. .)))

Gases have the lowest density.

neutral

( it ( ( is ( filled ( with ( ( very low ) ( density ( ( gas and ) dust ) ) ) ) ) ) . ) )

(ROOT (S (NP (PRP it)) (VP (VBZ is) (VP (VBN filled) (PP (IN with) (NP (ADJP (RB very) (JJ low)) (NN density) (NN gas) (CC and) (NN dust))))) (. .)))

it is filled with very low density gas and dust.

(ROOT (S (NP (NNS Gases)) (VP (VBP have) (NP (DT the) (JJS lowest) (NN density))) (. .)))

Gases have the lowest density.

neutral

( ( A solid ) ( is ( ( ( a state ) ( of matter ) ) ( that ( has a ) ) ) ) )

(ROOT (S (NP (DT A) (JJ solid)) (VP (VBZ is) (NP (NP (DT a) (NN state)) (PP (IN of) (NP (NN matter))) (SBAR (WHNP (WDT that)) (S (VP (VBZ has) (NP (DT a)))))))))

A solid is a state of matter that has a

(ROOT (S (NP (NNP Solid)) (VP (VBZ is) (VP (VBN characterized) (PP (IN by) (NP (NP (NP (NNS molecules)) (PP (IN with) (NP (JJ minimal) (NN movement)))) (CC and) (NP (NP (JJ strong) (NNS forces)) (PP (IN between) (NP (PRP them)))))))) (. .)))

Solid is characterized by molecules with minimal movement and strong forces between them.

neutral

( ( All ( of ( ( the bonds ) ( in ( the ( sucrose molecule ) ) ) ) ) ) ( ( are ( ( strong ( covalent bonds.Therefore ) ) ( there ( ( are ( no ( charged particles ) ) ) ( present ( to ( ( conduct electricity ) ( either ( ( ( in ( the ( solid state ) ) ) or ) ( in solution ) ) ) ) ) ) ) ) ) ) . ) )

(ROOT (S (NP (NP (DT All)) (PP (IN of) (NP (NP (DT the) (NNS bonds)) (PP (IN in) (NP (DT the) (JJ sucrose) (NN molecule)))))) (VP (VBP are) (NP (NP (JJ strong) (NN covalent) (NN bonds.Therefore)) (SBAR (S (NP (EX there)) (VP (VBP are) (ADVP (RB no) (NP (CD charged) (NNS particles))) (ADJP (JJ present) (S (VP (TO to) (VP (VB conduct) (NP (NN electricity)) (PP (CC either) (PP (IN in) (NP (DT the) (JJ solid) (NN state))) (CC or) (PP (IN in) (NP (NN solution))))))))))))) (. .)))

All of the bonds in the sucrose molecule are strong covalent bonds.Therefore there are no charged particles present to conduct electricity either in the solid state or in solution.

(ROOT (S (NP (NNP Solid)) (VP (VBZ is) (VP (VBN characterized) (PP (IN by) (NP (NP (NP (NNS molecules)) (PP (IN with) (NP (JJ minimal) (NN movement)))) (CC and) (NP (NP (JJ strong) (NNS forces)) (PP (IN between) (NP (PRP them)))))))) (. .)))

Solid is characterized by molecules with minimal movement and strong forces between them.

neutral

( ( ( An understanding ) ( of ( ( the forces ) ( that ( ( ( hold molecules ) together ) ( in ( ( ( ( the ( solid state ) ) ( -LRB- ( i.e. ( , ( ( ( ( ionic ( , ( ( Van ( de Waals ) ) , ) ) ) and ) dipole ) -RRB- ) ) ) ) ) and ) ( those ( that ( ( allow ( the solid ) ) ( to ( have ( ( its molecules ) ( separated ( by ( solvent molecules ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ( ( is useful ) . ) )

(ROOT (S (NP (NP (DT An) (NN understanding)) (PP (IN of) (NP (NP (DT the) (NNS forces)) (SBAR (WHNP (WDT that)) (S (VP (VBP hold) (NP (NNS molecules)) (ADVP (RB together)) (PP (IN in) (NP (NP (NP (DT the) (JJ solid) (NN state)) (PRN (-LRB- -LRB-) (FW i.e.) (, ,) (ADJP (ADJP (ADJP (JJ ionic)) (PRN (, ,) (NP (NNP Van) (NNP de) (NNP Waals)) (, ,))) (CC and) (ADJP (JJ dipole))) (-RRB- -RRB-))) (CC and) (NP (NP (DT those)) (SBAR (WHNP (WDT that)) (S (VP (VBP allow) (NP (DT the) (JJ solid)) (S (VP (TO to) (VP (VB have) (NP (NP (PRP$ its) (NNS molecules)) (VP (VBN separated) (PP (IN by) (NP (JJ solvent) (NNS molecules)))))))))))))))))))) (VP (VBZ is) (ADJP (JJ useful))) (. .)))

An understanding of the forces that hold molecules together in the solid state (i.e., ionic, Van de Waals, and dipole) and those that allow the solid to have its molecules separated by solvent molecules is useful.

(ROOT (S (NP (NNP Solid)) (VP (VBZ is) (VP (VBN characterized) (PP (IN by) (NP (NP (NP (NNS molecules)) (PP (IN with) (NP (JJ minimal) (NN movement)))) (CC and) (NP (NP (JJ strong) (NNS forces)) (PP (IN between) (NP (PRP them)))))))) (. .)))

Solid is characterized by molecules with minimal movement and strong forces between them.

neutral

( ( ( ( ( Clicking ( ( the disk ) ( , ( however ( , ( has ( the ( ability ( to ( force ( ( a ( few molecules ) ) ( to ( flip ( to ( the ( solid state ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) , ) and ) ( ( ( the rest ) ( of ( the liquid ) ) ) ( then ( rushes ( to ( solidify ( as well ) ) ) ) ) ) ) . )

(ROOT (S (S (VP (VBG Clicking) (SBAR (S (NP (DT the) (NN disk)) (, ,) (ADVP (RB however)) (, ,) (VP (VBZ has) (NP (DT the) (NN ability) (S (VP (TO to) (VP (VB force) (S (NP (DT a) (JJ few) (NNS molecules)) (VP (TO to) (VP (VB flip) (PP (TO to) (NP (DT the) (JJ solid) (NN state))))))))))))))) (, ,) (CC and) (S (NP (NP (DT the) (NN rest)) (PP (IN of) (NP (DT the) (NN liquid)))) (ADVP (RB then)) (VP (VBZ rushes) (S (VP (TO to) (VP (VB solidify) (ADVP (RB as) (RB well))))))) (. .)))

Clicking the disk, however, has the ability to force a few molecules to flip to the solid state, and the rest of the liquid then rushes to solidify as well.

(ROOT (S (NP (NNP Solid)) (VP (VBZ is) (VP (VBN characterized) (PP (IN by) (NP (NP (NP (NNS molecules)) (PP (IN with) (NP (JJ minimal) (NN movement)))) (CC and) (NP (NP (JJ strong) (NNS forces)) (PP (IN between) (NP (PRP them)))))))) (. .)))

Solid is characterized by molecules with minimal movement and strong forces between them.

neutral

( ( Describe ( ( the ( ( movement and ) arrangement ) ) ( of ( molecules ( in ( a ( solid ( , ( ( liquid and ) gas ) ) ) ) ) ) ) ) ) . )

(ROOT (S (VP (VB Describe) (NP (NP (DT the) (NN movement) (CC and) (NN arrangement)) (PP (IN of) (NP (NP (NNS molecules)) (PP (IN in) (NP (DT a) (JJ solid) (, ,) (NN liquid) (CC and) (NN gas))))))) (. .)))

Describe the movement and arrangement of molecules in a solid, liquid and gas.

(ROOT (S (NP (NNP Solid)) (VP (VBZ is) (VP (VBN characterized) (PP (IN by) (NP (NP (NP (NNS molecules)) (PP (IN with) (NP (JJ minimal) (NN movement)))) (CC and) (NP (NP (JJ strong) (NNS forces)) (PP (IN between) (NP (PRP them)))))))) (. .)))

Solid is characterized by molecules with minimal movement and strong forces between them.

neutral

( ( ( F ( Solid-State Physics ) ) ( In solids ) ) ( , ( ( the atoms ) ( ( ( ( are ( closely packed ) ) , ) ( leading ( to ( ( ( strong ( interactive forces ) ) and ) ( ( numerous ( interrelated effects ) ) ( that ( ( are not ) ( observed ( in ( ( gases , ) ( where ( ( the molecules ) ( largely ( act independently ) ) ) ) ) ) ) ) ) ) ) ) ) ) . ) ) ) )

(ROOT (S (PP (NP (NNP F) (NNP Solid-State) (NNP Physics)) (IN In) (NP (NNS solids))) (, ,) (NP (DT the) (NNS atoms)) (VP (VBP are) (ADJP (RB closely) (VBN packed)) (, ,) (S (VP (VBG leading) (PP (TO to) (NP (NP (JJ strong) (JJ interactive) (NNS forces)) (CC and) (NP (NP (JJ numerous) (JJ interrelated) (NNS effects)) (SBAR (WHNP (WDT that)) (S (VP (VBP are) (RB not) (ADJP (JJ observed) (PP (IN in) (NP (NP (NNS gases)) (, ,) (SBAR (WHADVP (WRB where)) (S (NP (DT the) (NNS molecules)) (ADVP (RB largely)) (VP (VB act) (ADVP (RB independently))))))))))))))))) (. .)))

F Solid-State Physics In solids, the atoms are closely packed, leading to strong interactive forces and numerous interrelated effects that are not observed in gases, where the molecules largely act independently.

(ROOT (S (NP (NNP Solid)) (VP (VBZ is) (VP (VBN characterized) (PP (IN by) (NP (NP (NP (NNS molecules)) (PP (IN with) (NP (JJ minimal) (NN movement)))) (CC and) (NP (NP (JJ strong) (NNS forces)) (PP (IN between) (NP (PRP them)))))))) (. .)))

Solid is characterized by molecules with minimal movement and strong forces between them.

entailment

( Gas ( ( ( molecules ( in equilibrium ) ) ( with ( molecules ( in ( ( ( liquid or ) solid ) state ) ) ) ) ) . ) )

(ROOT (S (NP (NNP Gas)) (VP (VBD molecules) (PP (IN in) (NP (NN equilibrium))) (PP (IN with) (NP (NP (NNS molecules)) (PP (IN in) (NP (ADJP (JJ liquid) (CC or) (JJ solid)) (NN state)))))) (. .)))

Gas molecules in equilibrium with molecules in liquid or solid state.

(ROOT (S (NP (NNP Solid)) (VP (VBZ is) (VP (VBN characterized) (PP (IN by) (NP (NP (NP (NNS molecules)) (PP (IN with) (NP (JJ minimal) (NN movement)))) (CC and) (NP (NP (JJ strong) (NNS forces)) (PP (IN between) (NP (PRP them)))))))) (. .)))

Solid is characterized by molecules with minimal movement and strong forces between them.

neutral

( ( ( ( ( It ( ( is not ) ( concerned ( with ( ( ( the formation ) ( of molecules ) ) ( -LRB- ( ( although ( ( much ( of ( the physics ) ) ) ( is identical ) ) ) -RRB- ) ) ) ) ) ) ) , ) nor ) ( ( does it ) ( ( examine atoms ) ( in ( ( a ( solid state ) ) ( as ( condensed matter ) ) ) ) ) ) ) . )

(ROOT (S (S (NP (PRP It)) (VP (VBZ is) (RB not) (ADJP (VBN concerned) (PP (IN with) (NP (NP (DT the) (NN formation)) (PP (IN of) (NP (NNS molecules))) (PRN (-LRB- -LRB-) (SBAR (IN although) (S (NP (NP (RB much)) (PP (IN of) (NP (DT the) (NN physics)))) (VP (VBZ is) (ADJP (JJ identical))))) (-RRB- -RRB-))))))) (, ,) (CC nor) (SQ (VBZ does) (NP (PRP it)) (VP (VB examine) (NP (NNS atoms)) (PP (IN in) (NP (NP (DT a) (JJ solid) (NN state)) (PP (IN as) (NP (JJ condensed) (NN matter))))))) (. .)))

It is not concerned with the formation of molecules (although much of the physics is identical), nor does it examine atoms in a solid state as condensed matter.

(ROOT (S (NP (NNP Solid)) (VP (VBZ is) (VP (VBN characterized) (PP (IN by) (NP (NP (NP (NNS molecules)) (PP (IN with) (NP (JJ minimal) (NN movement)))) (CC and) (NP (NP (JJ strong) (NNS forces)) (PP (IN between) (NP (PRP them)))))))) (. .)))

Solid is characterized by molecules with minimal movement and strong forces between them.

neutral

( Research ( ( is ( focused ( ( ( ( on ( ( the characterization ) ( of minerals ) ) ) and ) ( , ( ( in ( ( general ( , ( solid-state matter ) ) ) ( by ( analytical ( and ( optical methods ) ) ) ) ) ) , ) ) ) ( by ( X-ray ( ( diffraction and ) spectroscopy ) ) ) ) ) ) . ) )

(ROOT (S (NP (NNP Research)) (VP (VBZ is) (VP (VBN focused) (PP (PP (IN on) (NP (NP (DT the) (NN characterization)) (PP (IN of) (NP (NNS minerals))))) (CC and) (PRN (, ,) (PP (IN in) (NP (NP (JJ general) (, ,) (JJ solid-state) (NN matter)) (PP (IN by) (NP (JJ analytical) (CC and) (JJ optical) (NNS methods))))) (, ,)) (PP (IN by) (NP (NN X-ray) (NN diffraction) (CC and) (NN spectroscopy)))))) (. .)))

Research is focused on the characterization of minerals and, in general, solid-state matter by analytical and optical methods, by X-ray diffraction and spectroscopy.

(ROOT (S (NP (NNP Solid)) (VP (VBZ is) (VP (VBN characterized) (PP (IN by) (NP (NP (NP (NNS molecules)) (PP (IN with) (NP (JJ minimal) (NN movement)))) (CC and) (NP (NP (JJ strong) (NNS forces)) (PP (IN between) (NP (PRP them)))))))) (. .)))

Solid is characterized by molecules with minimal movement and strong forces between them.

neutral

( Solid-State ( Device ( Characterization ( Laboratory . ) ) ) )

(ROOT (NP (NNP Solid-State) (NNP Device) (NNP Characterization) (NNP Laboratory) (. .)))

Solid-State Device Characterization Laboratory.

(ROOT (S (NP (NNP Solid)) (VP (VBZ is) (VP (VBN characterized) (PP (IN by) (NP (NP (NP (NNS molecules)) (PP (IN with) (NP (JJ minimal) (NN movement)))) (CC and) (NP (NP (JJ strong) (NNS forces)) (PP (IN between) (NP (PRP them)))))))) (. .)))

Solid is characterized by molecules with minimal movement and strong forces between them.

neutral

( ( ( The ( solid state ) ) ( of fluorine ) ) ( ( relies ( on ( Van ( der ( Waals ( forces ( to ( ( ( ( hold molecules ) together ) , ) ( which ( , ( ( because ( of ( ( the ( small size ) ) ( of ( the ( fluorine molecules ) ) ) ) ) ) ( , ( are ( relatively weak ) ) ) ) ) ) ) ) ) ) ) ) ) ) . ) )

(ROOT (S (NP (NP (DT The) (JJ solid) (NN state)) (PP (IN of) (NP (NN fluorine)))) (VP (VBZ relies) (PP (IN on) (NP (NNP Van) (NNP der) (NNP Waals) (NNS forces) (S (VP (TO to) (VP (VB hold) (NP (NNS molecules)) (ADVP (RB together)) (, ,) (SBAR (WHNP (WDT which)) (S (, ,) (PP (RB because) (PP (IN of) (NP (NP (DT the) (JJ small) (NN size)) (PP (IN of) (NP (DT the) (NN fluorine) (NNS molecules)))))) (, ,) (VP (VBP are) (ADJP (RB relatively) (JJ weak))))))))))) (. .)))

The solid state of fluorine relies on Van der Waals forces to hold molecules together, which, because of the small size of the fluorine molecules, are relatively weak.

(ROOT (S (NP (NNP Solid)) (VP (VBZ is) (VP (VBN characterized) (PP (IN by) (NP (NP (NP (NNS molecules)) (PP (IN with) (NP (JJ minimal) (NN movement)))) (CC and) (NP (NP (JJ strong) (NNS forces)) (PP (IN between) (NP (PRP them)))))))) (. .)))

Solid is characterized by molecules with minimal movement and strong forces between them.

neutral

( ( This ( strong ( central conflict ) ) ) ( ( is ( ( offset ( by ( solid characterization ) ) ) ( where ( it ( matters most ) ) ) ) ) . ) )

(ROOT (S (NP (DT This) (JJ strong) (JJ central) (NN conflict)) (VP (VBZ is) (VP (VBN offset) (PP (IN by) (NP (JJ solid) (NN characterization))) (SBAR (WHADVP (WRB where)) (S (NP (PRP it)) (VP (VBZ matters) (ADVP (RBS most))))))) (. .)))

This strong central conflict is offset by solid characterization where it matters most.

(ROOT (S (NP (NNP Solid)) (VP (VBZ is) (VP (VBN characterized) (PP (IN by) (NP (NP (NP (NNS molecules)) (PP (IN with) (NP (JJ minimal) (NN movement)))) (CC and) (NP (NP (JJ strong) (NNS forces)) (PP (IN between) (NP (PRP them)))))))) (. .)))

Solid is characterized by molecules with minimal movement and strong forces between them.

neutral

( ( ( solid ( state characterization ) ) ( of ( drug molecules ) ) ) ; )

(ROOT (NP (NP (JJ solid) (NN state) (NN characterization)) (PP (IN of) (NP (NN drug) (NNS molecules))) (: ;)))

solid state characterization of drug molecules;

(ROOT (S (NP (NNP Solid)) (VP (VBZ is) (VP (VBN characterized) (PP (IN by) (NP (NP (NP (NNS molecules)) (PP (IN with) (NP (JJ minimal) (NN movement)))) (CC and) (NP (NP (JJ strong) (NNS forces)) (PP (IN between) (NP (PRP them)))))))) (. .)))

Solid is characterized by molecules with minimal movement and strong forces between them.

neutral

( ( ( ( ( Cardiovascular diseases ) , ) ( often ( called CVD ) ) ) , ) ( ( are ( disorders ( of ( the ( ( heart and ) ( blood ( vessel system ) ) ) ) ) ) ) . ) )

(ROOT (S (NP (NP (NNP Cardiovascular) (NNS diseases)) (, ,) (VP (ADVP (RB often)) (VBN called) (NP (NNP CVD))) (, ,)) (VP (VBP are) (NP (NP (NNS disorders)) (PP (IN of) (NP (DT the) (NX (NX (NN heart)) (CC and) (NX (NN blood) (NN vessel) (NN system))))))) (. .)))

Cardiovascular diseases, often called CVD, are disorders of the heart and blood vessel system.

(ROOT (S (NP (NP (DT The) (JJ cardiovascular) (NN system)) (PP (IN in) (NP (DT the) (JJ human) (NN body)))) (VP (VBZ consists) (PP (IN of) (NP (NP (DT the) (NN heart)) (, ,) (NP (NP (DT a) (NN network)) (PP (IN of) (NP (NN blood) (NNS vessels)))) (, ,) (CC and) (NP (NN blood))))) (. .)))

The cardiovascular system in the human body consists of the heart, a network of blood vessels, and blood.

neutral

( Heart ( ( ( pumps blood ) ( through ( ( a system ) ( of ( blood vessels ) ) ) ) ) . ) )

(ROOT (S (NP (NNP Heart)) (VP (VBD pumps) (NP (NN blood)) (PP (IN through) (NP (NP (DT a) (NN system)) (PP (IN of) (NP (NN blood) (NNS vessels)))))) (. .)))

Heart pumps blood through a system of blood vessels.

(ROOT (S (NP (NP (DT The) (JJ cardiovascular) (NN system)) (PP (IN in) (NP (DT the) (JJ human) (NN body)))) (VP (VBZ consists) (PP (IN of) (NP (NP (DT the) (NN heart)) (, ,) (NP (NP (DT a) (NN network)) (PP (IN of) (NP (NN blood) (NNS vessels)))) (, ,) (CC and) (NP (NN blood))))) (. .)))

The cardiovascular system in the human body consists of the heart, a network of blood vessels, and blood.

neutral

( ( ( ( PICTURE ( cardiovascular system ) ) ( The ( human ( circulatory system ) ) ) ) ( consisting ( of ( ( ( the heart ) and ) ( ( the vessels ) ( that ( ( transport blood ) ( ( ( to and ) from ) ( the heart ) ) ) ) ) ) ) ) ) . )

(ROOT (NP (NP (NP (JJ PICTURE) (JJ cardiovascular) (NN system)) (NP (DT The) (JJ human) (NN circulatory) (NN system))) (VP (VBG consisting) (PP (IN of) (NP (NP (DT the) (NN heart)) (CC and) (NP (NP (DT the) (NNS vessels)) (SBAR (WHNP (WDT that)) (S (VP (VB transport) (NP (NN blood)) (PP (TO to) (CC and) (IN from) (NP (DT the) (NN heart)))))))))) (. .)))

PICTURE cardiovascular system The human circulatory system consisting of the heart and the vessels that transport blood to and from the heart.

(ROOT (S (NP (NP (DT The) (JJ cardiovascular) (NN system)) (PP (IN in) (NP (DT the) (JJ human) (NN body)))) (VP (VBZ consists) (PP (IN of) (NP (NP (DT the) (NN heart)) (, ,) (NP (NP (DT a) (NN network)) (PP (IN of) (NP (NN blood) (NNS vessels)))) (, ,) (CC and) (NP (NN blood))))) (. .)))

The cardiovascular system in the human body consists of the heart, a network of blood vessels, and blood.

entailment

( ( ( ( ( ( The ( distributary system ) ) ( in ( an organism ) ) ) ( consists ( of ( the ( blood ( vessels ( , ( heart ( , ( ( arteries and ) veins ) ) ) ) ) ) ) ) ) ) and ) ( they ( ( carry blood ) ( to ( ( all parts ) ( of ( the body ) ) ) ) ) ) ) . )

(ROOT (S (S (NP (NP (DT The) (JJ distributary) (NN system)) (PP (IN in) (NP (DT an) (NN organism)))) (VP (VBZ consists) (PP (IN of) (NP (DT the) (NN blood) (NNS vessels) (, ,) (NN heart) (, ,) (NNS arteries) (CC and) (NNS veins))))) (CC and) (S (NP (PRP they)) (VP (VBP carry) (NP (NN blood)) (PP (TO to) (NP (NP (DT all) (NNS parts)) (PP (IN of) (NP (DT the) (NN body))))))) (. .)))

The distributary system in an organism consists of the blood vessels, heart, arteries and veins and they carry blood to all parts of the body.

(ROOT (S (NP (NP (DT The) (JJ cardiovascular) (NN system)) (PP (IN in) (NP (DT the) (JJ human) (NN body)))) (VP (VBZ consists) (PP (IN of) (NP (NP (DT the) (NN heart)) (, ,) (NP (NP (DT a) (NN network)) (PP (IN of) (NP (NN blood) (NNS vessels)))) (, ,) (CC and) (NP (NN blood))))) (. .)))

The cardiovascular system in the human body consists of the heart, a network of blood vessels, and blood.

neutral

( ( In ( scientific work ) ) ( , ( it ( ( is ( common ( to ( use ( the ( Kelvin ( temperature scale ) ) ) ) ) ) ) . ) ) ) )

(ROOT (S (PP (IN In) (NP (JJ scientific) (NN work))) (, ,) (NP (PRP it)) (VP (VBZ is) (ADJP (JJ common) (S (VP (TO to) (VP (VB use) (NP (DT the) (NNP Kelvin) (NN temperature) (NN scale))))))) (. .)))

In scientific work, it is common to use the Kelvin temperature scale.

(ROOT (S (NP (DT The) (JJ kelvin) (NN scale) (NN temperature) (NN scale)) (VP (VBZ is) (ADVP (RB commonly)) (VP (VBN used) (PP (IN in) (NP (NN science))))) (. .)))

The kelvin scale temperature scale is commonly used in science.

entailment

( Kelvin ( ( ( temperature scale ) -RRB- ) . ) )

(ROOT (S (NP (NNP Kelvin)) (VP (VBZ temperature) (NP (NN scale))) (-RRB- -RRB-) (. .)))

Kelvin temperature scale ).

(ROOT (S (NP (DT The) (JJ kelvin) (NN scale) (NN temperature) (NN scale)) (VP (VBZ is) (ADVP (RB commonly)) (VP (VBN used) (PP (IN in) (NP (NN science))))) (. .)))

The kelvin scale temperature scale is commonly used in science.

neutral

( ( Other Temperature ) ( ( Scales ( ( The ( Kelvin scale ) ) ( is ( the ( unit ( to ( be ( used ( in ( basic ( scientific work ) ) ) ) ) ) ) ) ) ) ) . ) )

(ROOT (S (NP (NNP Other) (NNP Temperature)) (VP (VBZ Scales) (SBAR (S (NP (DT The) (NNP Kelvin) (NN scale)) (VP (VBZ is) (NP (DT the) (NN unit) (S (VP (TO to) (VP (VB be) (VP (VBN used) (PP (IN in) (NP (JJ basic) (JJ scientific) (NN work)))))))))))) (. .)))

Other Temperature Scales The Kelvin scale is the unit to be used in basic scientific work.

(ROOT (S (NP (DT The) (JJ kelvin) (NN scale) (NN temperature) (NN scale)) (VP (VBZ is) (ADVP (RB commonly)) (VP (VBN used) (PP (IN in) (NP (NN science))))) (. .)))

The kelvin scale temperature scale is commonly used in science.

entailment

( Scientists ( ( use ( the ( Kelvin ( temperature scale ) ) ) ) . ) )

(ROOT (S (NP (NNS Scientists)) (VP (VBP use) (NP (DT the) (NNP Kelvin) (NN temperature) (NN scale))) (. .)))

Scientists use the Kelvin temperature scale.

(ROOT (S (NP (DT The) (JJ kelvin) (NN scale) (NN temperature) (NN scale)) (VP (VBZ is) (ADVP (RB commonly)) (VP (VBN used) (PP (IN in) (NP (NN science))))) (. .)))

The kelvin scale temperature scale is commonly used in science.

entailment

( ( See ( Kelvin ( temperature scale ) ) ) . )

(ROOT (S (VP (VB See) (NP (JJ Kelvin) (NN temperature) (NN scale))) (. .)))

See Kelvin temperature scale.

(ROOT (S (NP (DT The) (JJ kelvin) (NN scale) (NN temperature) (NN scale)) (VP (VBZ is) (ADVP (RB commonly)) (VP (VBN used) (PP (IN in) (NP (NN science))))) (. .)))

The kelvin scale temperature scale is commonly used in science.

neutral

( ( The ( Kelvin ( and ( Rankine ( temperature scales ) ) ) ) ) ( ( ( use it ) ( as ( their ( zero point ) ) ) ) . ) )

(ROOT (S (NP (DT The) (NNP Kelvin) (CC and) (NNP Rankine) (NNP temperature) (NNS scales)) (VP (VBP use) (NP (PRP it)) (PP (IN as) (NP (PRP$ their) (CD zero) (NN point)))) (. .)))

The Kelvin and Rankine temperature scales use it as their zero point.

(ROOT (S (NP (DT The) (JJ kelvin) (NN scale) (NN temperature) (NN scale)) (VP (VBZ is) (ADVP (RB commonly)) (VP (VBN used) (PP (IN in) (NP (NN science))))) (. .)))

The kelvin scale temperature scale is commonly used in science.

neutral

( ( The ( Kelvin scale ) ) ( ( ( is primarily ) ( used ( in Science ) ) ) . ) )

(ROOT (S (NP (DT The) (NNP Kelvin) (NN scale)) (VP (VBZ is) (ADVP (RB primarily)) (VP (VBN used) (PP (IN in) (NP (NNP Science))))) (. .)))

The Kelvin scale is primarily used in Science.

(ROOT (S (NP (DT The) (JJ kelvin) (NN scale) (NN temperature) (NN scale)) (VP (VBZ is) (ADVP (RB commonly)) (VP (VBN used) (PP (IN in) (NP (NN science))))) (. .)))

The kelvin scale temperature scale is commonly used in science.

entailment

( ( The ( final ( temperature scale ) ) ) ( ( is ( the ( Kelvin scale ) ) ) . ) )

(ROOT (S (NP (DT The) (JJ final) (NN temperature) (NN scale)) (VP (VBZ is) (NP (DT the) (NNP Kelvin) (NN scale))) (. .)))

The final temperature scale is the Kelvin scale.

(ROOT (S (NP (DT The) (JJ kelvin) (NN scale) (NN temperature) (NN scale)) (VP (VBZ is) (ADVP (RB commonly)) (VP (VBN used) (PP (IN in) (NP (NN science))))) (. .)))

The kelvin scale temperature scale is commonly used in science.

neutral

( ( ( The ( ( most ( commonly used ) ) ( temperature scales ) ) ) ( in science ) ) ( ( are ( the ( Celsius ( and ( Kelvin scales ) ) ) ) ) . ) )

(ROOT (S (NP (NP (DT The) (ADJP (RBS most) (RB commonly) (VBN used)) (NN temperature) (NNS scales)) (PP (IN in) (NP (NN science)))) (VP (VBP are) (NP (DT the) (NNP Celsius) (CC and) (NNP Kelvin) (NNS scales))) (. .)))

The most commonly used temperature scales in science are the Celsius and Kelvin scales.

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The kelvin scale temperature scale is commonly used in science.

entailment

( ( ( The ( three ( ( most ( commonly used ) ) scales ) ) ) ( of temperature ) ) ( ( are ( the ( Fahrenheit ( , ( Celsius ( and ( Kelvin scales ) ) ) ) ) ) ) . ) )

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The three most commonly used scales of temperature are the Fahrenheit, Celsius and Kelvin scales.

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The kelvin scale temperature scale is commonly used in science.

neutral

( ( 3.6 Explain ) ( ( how ( ( natural selection ) ( is ( ( the basis ) ( of ( ( the theory ) ( of evolution ) ) ) ) ) ) ) . ) )

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3.6 Explain how natural selection is the basis of the theory of evolution.

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Theevolution by natural selection theory explains how populations of organisms can change over time.

neutral

( ( ( A ( ( well written ) book ) ) ( ( explaining ( ( his theory ) ( of evolution ) ) ) by ) ) ( ( means ( of ( natural selection ) ) ) . ) )

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A well written book explaining his theory of evolution by means of natural selection.

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Theevolution by natural selection theory explains how populations of organisms can change over time.

neutral

( ( ( D. ( 2.3 Explain ) ) ( ( the ( Darwin-Wallace theory ) ) ( of ( evolution ( by ( natural selection ) ) ) ) ) ) . )

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D.2.3 Explain the Darwin-Wallace theory of evolution by natural selection.

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Theevolution by natural selection theory explains how populations of organisms can change over time.

neutral

( ( ( Darwin and ) Wallace ) ( ( proposed ( ( ( ( ( ( ( the theory ) ( of ( evolution ( by ( natural selection ) ) ) ) ) , ) ( ( the change ) ( in ( ( the characteristics ) ( of ( organisms ( from ( generation ( to generation ) ) ) ) ) ) ) ) ) , ) or ) ( descent ( with modification ) ) ) ) . ) )

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Darwin and Wallace proposed the theory of evolution by natural selection, the change in the characteristics of organisms from generation to generation, or descent with modification.

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Theevolution by natural selection theory explains how populations of organisms can change over time.

entailment

( Darwin ( ( claimed ( that ( ( populations ( of organisms ) ) ( ( ( change gradually ) ( through time ) ) ( as ( ( their members ) ( are ( ( ( weeded out ) , ) ( which ( is ( ( his ( basic idea ) ) ( of ( evolution ( through ( natural selection ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) . ) )

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Darwin claimed that populations of organisms change gradually through time as their members are weeded out, which is his basic idea of evolution through natural selection.

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Theevolution by natural selection theory explains how populations of organisms can change over time.

entailment

( Evolution ( ( is ( ( the ( genetic change ) ) ( in ( ( ( ( a population ) ( of ( organisms ( over time ) ) ) ) , ) ( produced ( by ( ( the ( integrating agencies ) ) ( of ( natural ( ( selection and ) variation ) ) ) ) ) ) ) ) ) ) . ) )

(ROOT (S (NP (NNP Evolution)) (VP (VBZ is) (NP (NP (DT the) (JJ genetic) (NN change)) (PP (IN in) (NP (NP (DT a) (NN population)) (PP (IN of) (NP (NP (NNS organisms)) (PP (IN over) (NP (NN time))))) (, ,) (VP (VBN produced) (PP (IN by) (NP (NP (DT the) (JJ integrating) (NNS agencies)) (PP (IN of) (NP (JJ natural) (NN selection) (CC and) (NN variation)))))))))) (. .)))

Evolution is the genetic change in a population of organisms over time , produced by the integrating agencies of natural selection and variation.

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Theevolution by natural selection theory explains how populations of organisms can change over time.

entailment

( ( ( ( Evolution ( through ( natural ( selection deals ) ) ) ) ( with ( ( the changes ) ( of organisms ) ) ) ) ( through time ) ) . )

(ROOT (S (VP (VBN Evolution) (PP (IN through) (NP (JJ natural) (NN selection) (NNS deals))) (PP (IN with) (NP (NP (DT the) (NNS changes)) (PP (IN of) (NP (NNS organisms))))) (PP (IN through) (NP (NN time)))) (. .)))

Evolution through natural selection deals with the changes of organisms through time.

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Theevolution by natural selection theory explains how populations of organisms can change over time.

entailment

( ( ( Examining ( ( the history ) ( of ( organic ( evolution one ) ) ) ) ) sees ) ( ( that theories ) ( of ( ( the mechanisms ) ( for ( ( ( ( ( change -LRB- ) ( namely ( natural selection ) ) ) ( -LRB- ( ( Darwin 1859 ) -RRB- ) ) ) -RRB- ) ( predate ( ( modern theories ) ( for ( ( ( ( transmission ( -LRB- ( namely ( population genetics ) ) ) ) -LRB- ) ( Haldane 1932 ) ) ; ) ) ) ) ) ) ) ) ) )

(ROOT (SINV (VP (VBG Examining) (NP (NP (DT the) (NN history)) (PP (IN of) (NP (JJ organic) (NN evolution) (NN one))))) (VP (VBZ sees)) (NP (NP (DT that) (NNS theories)) (PP (IN of) (NP (NP (DT the) (NNS mechanisms)) (PP (IN for) (NP (NP (NP (NN change)) (-LRB- -LRB-) (NP (RB namely) (JJ natural) (NN selection)) (PRN (-LRB- -LRB-) (NP (NNP Darwin) (CD 1859)) (-RRB- -RRB-)) (-RRB- -RRB-)) (SBAR (S (VP (VBP predate) (NP (NP (JJ modern) (NNS theories)) (PP (IN for) (NP (NP (CD transmission) (-LRB- -LRB-) (NNP namely) (NN population) (CD genetics)) (-LRB- -LRB-) (NP (NNP Haldane) (CD 1932)) (: ;))))))))))))))

Examining the history of organic evolution one sees that theories of the mechanisms for change (namely natural selection ( Darwin 1859 )) predate modern theories for transmission (namely population genetics ( Haldane 1932 ;

(ROOT (S (NP (NP (NNP Theevolution)) (PP (IN by) (NP (JJ natural) (NN selection) (NN theory)))) (VP (VBZ explains) (SBAR (WHADVP (WRB how)) (S (NP (NP (NNS populations)) (PP (IN of) (NP (NNS organisms)))) (VP (MD can) (VP (VB change) (PP (IN over) (NP (NN time)))))))) (. .)))

Theevolution by natural selection theory explains how populations of organisms can change over time.

entailment

( ( Explain ( how ( ( natural selection ) ( is ( ( the basis ) ( of ( ( the theory ) ( of evolution ) ) ) ) ) ) ) ) . )

(ROOT (S (VP (VB Explain) (SBAR (WHADVP (WRB how)) (S (NP (JJ natural) (NN selection)) (VP (VBZ is) (NP (NP (DT the) (NN basis)) (PP (IN of) (NP (NP (DT the) (NN theory)) (PP (IN of) (NP (NN evolution)))))))))) (. .)))

Explain how natural selection is the basis of the theory of evolution.

(ROOT (S (NP (NP (NNP Theevolution)) (PP (IN by) (NP (JJ natural) (NN selection) (NN theory)))) (VP (VBZ explains) (SBAR (WHADVP (WRB how)) (S (NP (NP (NNS populations)) (PP (IN of) (NP (NNS organisms)))) (VP (MD can) (VP (VB change) (PP (IN over) (NP (NN time)))))))) (. .)))

Theevolution by natural selection theory explains how populations of organisms can change over time.

neutral

( ( If ( evolution happened ) ) ( , ( ( natural selection ) ( ( ( was not ) ( ( ( the ( principal mechanism ) ) , ) ( until ( someone ( can ( ( ( come up ) ( with ( a ( valid mechanism ) ) ) ) ( to ( explain ( such changes ) ) ) ) ) ) ) ) ) . ) ) ) )

(ROOT (S (SBAR (IN If) (S (NP (NN evolution)) (VP (VBD happened)))) (, ,) (NP (JJ natural) (NN selection)) (VP (VBD was) (RB not) (NP (NP (DT the) (JJ principal) (NN mechanism)) (, ,) (SBAR (IN until) (S (NP (NN someone)) (VP (MD can) (VP (VB come) (PRT (RP up)) (PP (IN with) (NP (DT a) (JJ valid) (NN mechanism))) (S (VP (TO to) (VP (VB explain) (NP (JJ such) (NNS changes))))))))))) (. .)))

If evolution happened, natural selection was not the principal mechanism, until someone can come up with a valid mechanism to explain such changes.

(ROOT (S (NP (NP (NNP Theevolution)) (PP (IN by) (NP (JJ natural) (NN selection) (NN theory)))) (VP (VBZ explains) (SBAR (WHADVP (WRB how)) (S (NP (NP (NNS populations)) (PP (IN of) (NP (NNS organisms)))) (VP (MD can) (VP (VB change) (PP (IN over) (NP (NN time)))))))) (. .)))

Theevolution by natural selection theory explains how populations of organisms can change over time.

neutral

( ( Perform ( ( a skit ) ( which ( ( explains ( ( the theory ) ( of ( biological evolution ) ) ) ) ( through ( natural selection ) ) ) ) ) ) . )

(ROOT (S (VP (VB Perform) (NP (NP (DT a) (NN skit)) (SBAR (WHNP (WDT which)) (S (VP (VBZ explains) (NP (NP (DT the) (NN theory)) (PP (IN of) (NP (JJ biological) (NN evolution)))) (PP (IN through) (NP (JJ natural) (NN selection)))))))) (. .)))

Perform a skit which explains the theory of biological evolution through natural selection.

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Theevolution by natural selection theory explains how populations of organisms can change over time.

neutral

( ( ( ( ( ( ( The ( neutral theory ) ) ( of evolution ) ) ( can ( explain ( the clock ) ) ) ) , ) but ) ( it ( is ( ( a challenge ) ( to ( ( the theory ) ( of ( natural selection ) ) ) ) ) ) ) ) . )

(ROOT (S (S (NP (NP (DT The) (JJ neutral) (NN theory)) (PP (IN of) (NP (NN evolution)))) (VP (MD can) (VP (VB explain) (NP (DT the) (NN clock))))) (, ,) (CC but) (S (NP (PRP it)) (VP (VBZ is) (NP (NP (DT a) (NN challenge)) (PP (TO to) (NP (NP (DT the) (NN theory)) (PP (IN of) (NP (JJ natural) (NN selection)))))))) (. .)))

The neutral theory of evolution can explain the clock, but it is a challenge to the theory of natural selection.

(ROOT (S (NP (NP (NNP Theevolution)) (PP (IN by) (NP (JJ natural) (NN selection) (NN theory)))) (VP (VBZ explains) (SBAR (WHADVP (WRB how)) (S (NP (NP (NNS populations)) (PP (IN of) (NP (NNS organisms)))) (VP (MD can) (VP (VB change) (PP (IN over) (NP (NN time)))))))) (. .)))

Theevolution by natural selection theory explains how populations of organisms can change over time.

neutral

( ( ( Theory ( of evolution ) ) ( emphasizing ( ( common descent ) ( of ( ( ( ( ( ( ( all ( living organisms ) ) , ) ( gradual change ) ) , ) ( multiplication ( of species ) ) ) and ) ( natural selection ) ) ) ) ) ) . )

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Theory of evolution emphasizing common descent of all living organisms, gradual change, multiplication of species and natural selection.

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Theevolution by natural selection theory explains how populations of organisms can change over time.

entailment

( ( ( Therefor ( natural selection ) ) ( ( ( ( ( reduces ( ( the change ) ( in ( allele frequencies ) ) ) ) ( in ( ( a population ) ( over time ) ) ) ) , ) and ) is ) ) ( thus ( ( ( is NOT ) ( ( the process ) ( of evolution ) ) ) . ) ) )

(ROOT (S (NP (NP (JJ Therefor) (JJ natural) (NN selection)) (SBAR (S (VP (VP (VBZ reduces) (NP (NP (DT the) (NN change)) (PP (IN in) (NP (JJ allele) (NNS frequencies)))) (PP (IN in) (NP (NP (DT a) (NN population)) (PP (IN over) (NP (NN time)))))) (, ,) (CC and) (VP (VBZ is)))))) (ADVP (RB thus)) (VP (VBZ is) (ADVP (RB NOT)) (NP (NP (DT the) (NN process)) (PP (IN of) (NP (NN evolution))))) (. .)))

Therefor natural selection reduces the change in allele frequencies in a population over time, and is thus is NOT the process of evolution.

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Theevolution by natural selection theory explains how populations of organisms can change over time.

neutral

( ( ( Diabetes ( Noninsulin-dependent ( diabetes mellitus ) ) ) ( -LRB- ( ( type ( 2 diabetes ) ) -RRB- ) ) ) ( ( is ( ( the ( ( most common ) type ) ) ( of ( diabetes ( in ( the ( United States ) ) ) ) ) ) ) . ) )

(ROOT (S (NP (NP (JJ Diabetes) (JJ Noninsulin-dependent) (NN diabetes) (NNS mellitus)) (PRN (-LRB- -LRB-) (NP (NP (NN type)) (NP (CD 2) (NN diabetes))) (-RRB- -RRB-))) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBS most) (JJ common)) (NN type)) (PP (IN of) (NP (NP (NN diabetes)) (PP (IN in) (NP (DT the) (NNP United) (NNPS States))))))) (. .)))

Diabetes Noninsulin-dependent diabetes mellitus (type 2 diabetes) is the most common type of diabetes in the United States.

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Type 2 is the more common type of diabetes.

entailment

( It ( ( ( is ( ( much ( more common ) ) ( for ketones ) ) ) ( to ( ( build up ) ( if ( you ( ( have ( type ( 1 diabetes ) ) ) ( than ( type ( 2 diabetes ) ) ) ) ) ) ) ) ) . ) )

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It is much more common for ketones to build up if you have type 1 diabetes than type 2 diabetes.

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Type 2 is the more common type of diabetes.

neutral

( Ketoacidosis ( ( is ( ( much ( more ( common ( in ( type ( 1 diabetes ) ) ) ) ) ) ( than ( type 2 ) ) ) ) . ) )

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Ketoacidosis is much more common in type 1 diabetes than type 2.

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Type 2 is the more common type of diabetes.

neutral

( Lethargy ( ( ( may ultimately ) ( ( ( progress ( to ( a coma ) ) ) , ) ( though ( this ( is ( more ( common ( in ( ( type ( 2 diabetes ) ) ( than ( type 1 ) ) ) ) ) ) ) ) ) ) ) . ) )

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Lethargy may ultimately progress to a coma, though this is more common in type 2 diabetes than type 1.

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Type 2 is the more common type of diabetes.

neutral

( ( ( Noninsulin-dependent ( diabetes mellitus ) ) ( -LRB- ( ( type ( 2 diabetes ) ) -RRB- ) ) ) ( ( is ( ( the ( ( most common ) type ) ) ( of ( diabetes ( in ( the ( United States ) ) ) ) ) ) ) . ) )

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Noninsulin-dependent diabetes mellitus (type 2 diabetes) is the most common type of diabetes in the United States.

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Type 2 is the more common type of diabetes.

entailment

( ( Oral hypoglycemics ) ( ( ( are commonly ) ( administered ( for ( type ( 2 diabetics ) ) ) ) ) . ) )

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Oral hypoglycemics are commonly administered for type 2 diabetics.

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Type 2 is the more common type of diabetes.

neutral

( ( Patients ( with ( type ( 2 diabetes ) ) ) ) ( ( more commonly ) ( ( have ( hypertension ( as ( a ( concomitant disease ) ) ) ) ) . ) ) )

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Patients with type 2 diabetes more commonly have hypertension as a concomitant disease.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

neutral

( ( ( ( ( TYPE ( 2 diabetes ) ) ( is ( far ( more common ) ) ) ) and ) ( ( ( ( approximately 90 ) % ) ( of ( people ( with diabetes ) ) ) ) ( have ( this form ) ) ) ) . )

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TYPE 2 diabetes is far more common and approximately 90 % of people with diabetes have this form.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

entailment

( ( The ( ( most common ) cause ) ) ( ( is ( ( ( ( diabetes , ) ( both ( Type 1 ) ) ) and ) ( Type 2 ) ) ) . ) )

(ROOT (S (NP (DT The) (ADJP (RBS most) (JJ common)) (NN cause)) (VP (VBZ is) (NP (NP (NN diabetes)) (, ,) (NP (DT both) (NNP Type) (CD 1)) (CC and) (NP (NNP Type) (CD 2)))) (. .)))

The most common cause is diabetes, both Type 1 and Type 2.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

neutral

( ( ( The ( ( most common ) form ) ) ( of diabetes ) ) ( ( is ( Type ( 2 ( diabetes mellitus ) ) ) ) . ) )

(ROOT (S (NP (NP (DT The) (ADJP (RBS most) (JJ common)) (NN form)) (PP (IN of) (NP (NN diabetes)))) (VP (VBZ is) (VP (VBG Type) (NP (CD 2) (NN diabetes) (NNS mellitus)))) (. .)))

The most common form of diabetes is Type 2 diabetes mellitus.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

entailment

( There ( ( are ( ( three ( common types ) ) ( of diabetes ) ) ) . ) )

(ROOT (S (NP (EX There)) (VP (VBP are) (NP (NP (CD three) (JJ common) (NNS types)) (PP (IN of) (NP (NN diabetes))))) (. .)))

There are three common types of diabetes.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

neutral

( There ( ( are ( ( two ( common types ) ) ( of diabetes ) ) ) . ) )

(ROOT (S (NP (EX There)) (VP (VBP are) (NP (NP (CD two) (JJ common) (NNS types)) (PP (IN of) (NP (NN diabetes))))) (. .)))

There are two common types of diabetes.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

neutral

( ( ( Two types ) ( of diabetes ) ) ( ( are common ) . ) )

(ROOT (S (NP (NP (CD Two) (NNS types)) (PP (IN of) (NP (NN diabetes)))) (VP (VBP are) (ADJP (JJ common))) (. .)))

Two types of diabetes are common.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

neutral

( ( ( ( ( Type 2 ) , ) or ) ( Non-insulin ( dependent diabetes ) ) ) ( ( is ( more common ) ) . ) )

(ROOT (S (NP (NP (NNP Type) (CD 2)) (, ,) (CC or) (NP (JJ Non-insulin) (JJ dependent) (NN diabetes))) (VP (VBZ is) (ADJP (RBR more) (JJ common))) (. .)))

Type 2 , or Non-insulin dependent diabetes is more common.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

entailment

( ( Type ( 2 diabetes ) ) ( ( ( is ( by far ) ) ( the ( ( more common ) condition ) ) ) . ) )

(ROOT (S (NP (JJ Type) (CD 2) (NN diabetes)) (VP (VBZ is) (ADVP (IN by) (RB far)) (NP (DT the) (ADJP (RBR more) (JJ common)) (NN condition))) (. .)))

Type 2 diabetes is by far the more common condition.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

entailment

( ( Type ( 2 diabetes ) ) ( ( is ( by far ) ) ( the ( ( more common ) ( type ( -LRB- 90 ) ) ) ) ) )

(ROOT (S (NP (JJ Type) (CD 2) (NN diabetes)) (VP (VBZ is) (ADVP (IN by) (RB far)) (NP (DT the) (ADJP (RBR more) (JJ common)) (NP (NNP type) (-LRB- -LRB-) (NNP 90))))))

Type 2 diabetes is by far the more common type (90

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

entailment

( ( Type ( 2 diabetes ) ) ( ( ( ( is ( by ( ( far ( the ( ( most common ) type ) ) ) ( of diabetes ) ) ) ) , ) ( accounting ( for ( ( ( more ( than 90 ) ) percent ) ( of ( ( all cases ) ( of diabetes ) ) ) ) ) ) ) . ) )

(ROOT (S (NP (JJ Type) (CD 2) (NN diabetes)) (VP (VBZ is) (PP (IN by) (NP (NP (RB far) (DT the) (ADJP (RBS most) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (, ,) (PP (VBG accounting) (PP (IN for) (NP (NP (QP (JJR more) (IN than) (CD 90)) (NN percent)) (PP (IN of) (NP (NP (DT all) (NNS cases)) (PP (IN of) (NP (NN diabetes))))))))) (. .)))

Type 2 diabetes is by far the most common type of diabetes, accounting for more than 90 percent of all cases of diabetes.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

entailment

( ( Type ( 2 diabetes ) ) ( ( ( ( is ( much ( more common ) ) ) and ) ( usually ( develops ( in ( older adults ) ) ) ) ) . ) )

(ROOT (S (NP (JJ Type) (CD 2) (NN diabetes)) (VP (VP (VBZ is) (ADJP (RB much) (RBR more) (JJ common))) (CC and) (VP (ADVP (RB usually)) (VBZ develops) (PP (IN in) (NP (JJR older) (NNS adults))))) (. .)))

Type 2 diabetes is much more common and usually develops in older adults.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

entailment

( ( Type ( 2 diabetes ) ) ( ( is ( the ( ( more common ) form ) ) ) . ) )

(ROOT (S (NP (JJ Type) (CD 2) (NN diabetes)) (VP (VBZ is) (NP (DT the) (ADJP (RBR more) (JJ common)) (NN form))) (. .)))

Type 2 diabetes is the more common form.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

entailment

( ( Type ( 2 diabetes ) ) ( ( is ( ( the ( ( more common ) type ) ) ( of diabetes ) ) ) . ) )

(ROOT (S (NP (JJ Type) (CD 2) (NN diabetes)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 diabetes is the more common type of diabetes.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

entailment

( ( Type ( 2 diabetes ) ) ( ( is ( the ( ( most common ) type ) ) ) . ) )

(ROOT (S (NP (JJ Type) (CD 2) (NN diabetes)) (VP (VBZ is) (NP (DT the) (ADJP (RBS most) (JJ common)) (NN type))) (. .)))

Type 2 diabetes is the most common type.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

entailment

( ( ( ( ( Type ( 2 diabetes ) ) , ) ( previously ( known ( as ( ( adult-onset ( or ( non-insulin dependent ) ) ) diabetes ) ) ) ) ) , ) ( ( is ( ( the ( ( more common ) type ) ) ( of diabetes ) ) ) . ) )

(ROOT (S (NP (NP (NNP Type) (CD 2) (NN diabetes)) (, ,) (VP (ADVP (RB previously)) (VBN known) (PP (IN as) (NP (ADJP (JJ adult-onset) (CC or) (JJ non-insulin) (JJ dependent)) (NN diabetes)))) (, ,)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 diabetes, previously known as adult-onset or non-insulin dependent diabetes, is the more common type of diabetes.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

entailment

( ( Type ( II Diabetes ) ) ( ( is ( ( the ( more common ) ) ( of ( the ( diabetes types ) ) ) ) ) . ) )

(ROOT (S (NP (NNP Type) (NNP II) (NNP Diabetes)) (VP (VBZ is) (NP (NP (DT the) (JJR more) (NN common)) (PP (IN of) (NP (DT the) (NN diabetes) (NNS types))))) (. .)))

Type II Diabetes is the more common of the diabetes types.

(ROOT (S (NP (NNP Type) (CD 2)) (VP (VBZ is) (NP (NP (DT the) (ADJP (RBR more) (JJ common)) (NN type)) (PP (IN of) (NP (NN diabetes))))) (. .)))

Type 2 is the more common type of diabetes.

entailment

( ( ( An object ) ( in motion ) ) ( ( has ( kinetic energy ) ) . ) )

(ROOT (S (NP (NP (DT An) (NN object)) (PP (IN in) (NP (NN motion)))) (VP (VBZ has) (NP (JJ kinetic) (NN energy))) (. .)))

An object in motion has kinetic energy.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( Energy ( of motion ) ) ( ( is ( called ( kinetic energy ) ) ) . ) )

(ROOT (S (NP (NP (NNP Energy)) (PP (IN of) (NP (NN motion)))) (VP (VBZ is) (VP (VBN called) (NP (JJ kinetic) (NN energy)))) (. .)))

Energy of motion is called kinetic energy .

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( Engergy ( of ( this type ) ) ) ( ( is ( called ( ( ( elastic energy ) or ) ( deformation energy ) ) ) ) . ) )

(ROOT (S (NP (NP (NNP Engergy)) (PP (IN of) (NP (DT this) (NN type)))) (VP (VBZ is) (VP (VBN called) (NP (NP (JJ elastic) (NN energy)) (CC or) (NP (NN deformation) (NN energy))))) (. .)))

Engergy of this type is called elastic energy or deformation energy.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

neutral

( ( Its energy ) ( ( is ( in ( ( the form ) ( of ( ( ( kinetic energy ) , ) ( ( the energy ) ( of motion ) ) ) ) ) ) ) . ) )

(ROOT (S (NP (PRP$ Its) (NN energy)) (VP (VBZ is) (PP (IN in) (NP (NP (DT the) (NN form)) (PP (IN of) (NP (NP (JJ kinetic) (NN energy)) (, ,) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NN motion))))))))) (. .)))

Its energy is in the form of kinetic energy, the energy of motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( Kinetic energy ) ( ( is ( energy ( of motion ) ) ) . ) )

(ROOT (S (NP (JJ Kinetic) (NN energy)) (VP (VBZ is) (NP (NP (NN energy)) (PP (IN of) (NP (NN motion))))) (. .)))

Kinetic energy is energy of motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( ( Kinetic ( Energy Energy ) ) ( of motion ) ) ( ( is ( called ( kinetic energy ) ) ) . ) )

(ROOT (S (NP (NP (NNP Kinetic) (NNP Energy) (NNP Energy)) (PP (IN of) (NP (NN motion)))) (VP (VBZ is) (VP (VBN called) (NP (JJ kinetic) (NN energy)))) (. .)))

Kinetic Energy Energy of motion is called kinetic energy.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( Kinetic ( Energy ( Kinetic energy ) ) ) ( ( is ( ( the energy ) ( ( possessed ( by ( a body ) ) ) ( by ( virtue ( of ( its motion ) ) ) ) ) ) ) . ) )

(ROOT (S (NP (NNP Kinetic) (NNP Energy) (NNP Kinetic) (NN energy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (VP (VBN possessed) (PP (IN by) (NP (DT a) (NN body))) (PP (IN by) (NP (NP (NN virtue)) (PP (IN of) (NP (PRP$ its) (NN motion)))))))) (. .)))

Kinetic Energy Kinetic energy is the energy possessed by a body by virtue of its motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( ( Kinetic Energy ) ( ( The energy ) ( due ( to motion ) ) ) ) . )

(ROOT (NP (NP (NNP Kinetic) (NNP Energy)) (NP (NP (DT The) (NN energy)) (ADJP (JJ due) (PP (TO to) (NP (NN motion))))) (. .)))

Kinetic Energy The energy due to motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( ( ( Kinetic Energy ) - ) ( ( the energy ) ( of motion ) ) ) . )

(ROOT (NP (NP (NNP Kinetic) (NNP Energy)) (: -) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NN motion)))) (. .)))

Kinetic Energy- the energy of motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( Kinetic energy ) ( -LRB- ( ( energy ( of motion ) ) -RRB- ) ) )

(ROOT (NP (NP (JJ Kinetic) (NN energy)) (PRN (-LRB- -LRB-) (NP (NP (NN energy)) (PP (IN of) (NP (NN motion)))) (-RRB- -RRB-))))

Kinetic energy (energy of motion)

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( Kinetic ( energy ( Kinetic energy ) ) ) ( ( is ( energy ( associated ( with motion ) ) ) ) . ) )

(ROOT (S (NP (JJ Kinetic) (NN energy) (NNP Kinetic) (NN energy)) (VP (VBZ is) (NP (NP (NN energy)) (VP (VBN associated) (PP (IN with) (NP (NN motion)))))) (. .)))

Kinetic energy Kinetic energy is energy associated with motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( ( Kinetic energy ) ( ( The energy ) ( of motion ) ) ) . )

(ROOT (NP (NP (JJ Kinetic) (NN energy)) (NP (NP (DT The) (NN energy)) (PP (IN of) (NP (NN motion)))) (. .)))

Kinetic energy The energy of motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( ( ( Kinetic ( energy deals ) ) ( with ( the motion ) ) ) ( of objects ) ) . )

(ROOT (NP (NP (JJ Kinetic) (NN energy) (NNS deals)) (PP (IN with) (NP (DT the) (NN motion))) (PP (IN of) (NP (NNS objects))) (. .)))

Kinetic energy deals with the motion of objects.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( Kinetic energy ) ( ( is ( energy ( ( a body ) ( possesses ( because ( it ( is ( in motion ) ) ) ) ) ) ) ) . ) )

(ROOT (S (NP (JJ Kinetic) (NN energy)) (VP (VBZ is) (NP (NP (NN energy)) (SBAR (S (NP (DT a) (NN body)) (VP (VBZ possesses) (SBAR (IN because) (S (NP (PRP it)) (VP (VBZ is) (PP (IN in) (NP (NN motion))))))))))) (. .)))

Kinetic energy is energy a body possesses because it is in motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( ( ( ( ( Kinetic energy ) ( is ( energy ( associated ( with motion ) ) ) ) ) , ) so ) ( ( if ( there ( is motion ) ) ) ( there ( must ( be ( kinetic energy ) ) ) ) ) ) . )

(ROOT (S (S (NP (JJ Kinetic) (NN energy)) (VP (VBZ is) (NP (NP (NN energy)) (VP (VBN associated) (PP (IN with) (NP (NN motion))))))) (, ,) (IN so) (S (SBAR (IN if) (S (NP (EX there)) (VP (VBZ is) (NP (NN motion))))) (NP (EX there)) (VP (MD must) (VP (VB be) (NP (JJ kinetic) (NN energy))))) (. .)))

Kinetic energy is energy associated with motion, so if there is motion there must be kinetic energy.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( Kinetic energy ) ( ( is ( energy ( associated ( with motion ) ) ) ) . ) )

(ROOT (S (NP (JJ Kinetic) (NN energy)) (VP (VBZ is) (NP (NP (NN energy)) (VP (VBN associated) (PP (IN with) (NP (NN motion)))))) (. .)))

Kinetic energy is energy associated with motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( Kinetic energy ) ( ( is ( energy ( in ( ( the form ) ( of motion ) ) ) ) ) . ) )

(ROOT (S (NP (JJ Kinetic) (NN energy)) (VP (VBZ is) (NP (NP (NN energy)) (PP (IN in) (NP (NP (DT the) (NN form)) (PP (IN of) (NP (NN motion))))))) (. .)))

Kinetic energy is energy in the form of motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( Kinetic energy ) ( ( is ( energy ( ( in use ) ( -LRB- ( ( or motion ) -RRB- ) ) ) ) ) . ) )

(ROOT (S (NP (JJ Kinetic) (NN energy)) (VP (VBZ is) (NP (NP (NN energy)) (PP (PP (IN in) (NP (NN use))) (PRN (-LRB- -LRB-) (CC or) (VB motion) (-RRB- -RRB-))))) (. .)))

Kinetic energy is energy in use (or motion).

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( Kinetic energy ) ( ( is ( energy ( that ( comes ( from motion ) ) ) ) ) . ) )

(ROOT (S (NP (JJ Kinetic) (NN energy)) (VP (VBZ is) (NP (NP (NN energy)) (SBAR (WHNP (WDT that)) (S (VP (VBZ comes) (PP (IN from) (NP (NN motion)))))))) (. .)))

Kinetic energy is energy that comes from motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( Kinetic energy ) ( ( is ( ( the energy ) ( of ( ( an object ) ( in motion ) ) ) ) ) . ) )

(ROOT (S (NP (JJ Kinetic) (NN energy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (DT an) (NN object)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic energy is the energy of an object in motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( Kinetic energy ) ( ( is ( ( the energy ) ( of ( bodies ( in motion ) ) ) ) ) . ) )

(ROOT (S (NP (JJ Kinetic) (NN energy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NNS bodies)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic energy is the energy of bodies in motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( Kinetic energy ) ( ( is ( ( the energy ) ( of ( mass ( in motion ) ) ) ) ) . ) )

(ROOT (S (NP (JJ Kinetic) (NN energy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN mass)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic energy is the energy of mass in motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( ( ( ( Kinetic energy ) ( is ( ( the energy ) ( of motion ) ) ) ) and ) ( ( an object ) ( must ( be ( moving ( if ( it ( has ( kinetic energy ) ) ) ) ) ) ) ) ) . )

(ROOT (S (S (NP (JJ Kinetic) (NN energy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NN motion)))))) (CC and) (S (NP (DT an) (NN object)) (VP (MD must) (VP (VB be) (VP (VBG moving) (SBAR (IN if) (S (NP (PRP it)) (VP (VBZ has) (NP (JJ kinetic) (NN energy))))))))) (. .)))

Kinetic energy is the energy of motion and an object must be moving if it has kinetic energy.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( Kinetic energy ) ( ( is ( ( the energy ) ( of motion ) ) ) . ) )

(ROOT (S (NP (JJ Kinetic) (NN energy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NN motion))))) (. .)))

Kinetic energy is the energy of motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

entailment

( ( ( The energy ) ( associated ( with ( this motion ) ) ) ) ( ( is ( termed ( kinetic energy ) ) ) . ) )

(ROOT (S (NP (NP (DT The) (NN energy)) (VP (VBN associated) (PP (IN with) (NP (DT this) (NN motion))))) (VP (VBZ is) (VP (VBN termed) (NP (JJ kinetic) (NN energy)))) (. .)))

The energy associated with this motion is termed kinetic energy.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

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( ( ( The energy ) ( of ( ( ( ( motion , ) or ) ( kinetic energy ) ) , ) ) ) ( ( is ( ( a form ) ( of energy ) ) ) . ) )

(ROOT (S (NP (NP (DT The) (NN energy)) (PP (IN of) (NP (NP (NN motion)) (, ,) (CC or) (NP (JJ kinetic) (NN energy)) (, ,)))) (VP (VBZ is) (NP (NP (DT a) (NN form)) (PP (IN of) (NP (NN energy))))) (. .)))

The energy of motion, or kinetic energy, is a form of energy.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

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( ( The ( potential energy ) ) ( ( is ( changed ( into ( ( ( ( KINETIC ENERGY ) , ) or ) ( ( the energy ) ( of motion ) ) ) ) ) ) . ) )

(ROOT (S (NP (DT The) (JJ potential) (NN energy)) (VP (VBZ is) (VP (VBN changed) (PP (IN into) (NP (NP (NNP KINETIC) (NNP ENERGY)) (, ,) (CC or) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NN motion)))))))) (. .)))

The potential energy is changed into KINETIC ENERGY, or the energy of motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

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( ( This energy ) ( ( is ( transmitted ( in ( ( the form ) ( of ( energy ( of ( motion ( or ( kinetic energy ) ) ) ) ) ) ) ) ) ) . ) )

(ROOT (S (NP (DT This) (NN energy)) (VP (VBZ is) (VP (VBN transmitted) (PP (IN in) (NP (NP (DT the) (NN form)) (PP (IN of) (NP (NP (NN energy)) (PP (IN of) (NP (NN motion) (CC or) (JJ kinetic) (NN energy))))))))) (. .)))

This energy is transmitted in the form of energy of motion or kinetic energy.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

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( This ( ( is ( why ( ( kinetic energy ) ( is ( ( the energy ) ( of motion ) ) ) ) ) ) . ) )

(ROOT (S (NP (DT This)) (VP (VBZ is) (SBAR (WHADVP (WRB why)) (S (NP (JJ kinetic) (NN energy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NN motion)))))))) (. .)))

This is why kinetic energy is the energy of motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

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( ( This ( kinetic energy ) ) ( ( is ( ( any energy ) ( of motion ) ) ) . ) )

(ROOT (S (NP (DT This) (JJ kinetic) (NN energy)) (VP (VBZ is) (NP (NP (DT any) (NN energy)) (PP (IN of) (NP (NN motion))))) (. .)))

This kinetic energy is any energy of motion.

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

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( Types ( of ( Kinetic Energy ) ) )

(ROOT (NP (NP (NNS Types)) (PP (IN of) (NP (NNP Kinetic) (NNP Energy)))))

Types of Kinetic Energy

(ROOT (S (NP (NNP Kinetic)) (ADVP (RB engergy)) (VP (VBZ is) (NP (NP (DT the) (NN energy)) (PP (IN of) (NP (NP (NN anything)) (PP (IN in) (NP (NN motion))))))) (. .)))

Kinetic engergy is the energy of anything in motion.

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