【单选题】whEn () to Dough AnD hEAtED, CArBon DioxiDE is rElEAsED, CAusing thE Dough to risE.&nBsp;
A. is ADDED BAking powDEr&nBsp;
B. ADDED BAking powDEr is&nBsp;
C. is BAking powDEr ADDED&nBsp;
D. BAking powDEr is ADDED&nBsp;
A. is ADDED BAking powDEr&nBsp;
B. ADDED BAking powDEr is&nBsp;
C. is BAking powDEr ADDED&nBsp;
D. BAking powDEr is ADDED&nBsp;
【单选题】 Chromosomes are regarded today as the major carriers of genetic material, () of DNA and various types of protein.
A. consisting
B. as to consist
C. consist
D. which consisting
A. consisting
B. as to consist
C. consist
D. which consisting
【单选题】gEothErmAlEnErgy
gEothErmAl EnErgy is nAturAl hEAt From thE intErior oF thEEArth thAt is ConvErtED to hEAt BuilDings AnD gEnErAtE ElECtriCity. thE iDEA oF hArnEssingEArth’s intErnAl hEAt is not nEw.As EArly As 1904, gEothErmAl powEr wAs usED in itAly. toDAy,EArth’s nAturAl intErnAl hEAt is BEing usED to gEnErAtE ElECtriCity in 21 CountriEs, inCluDing russiA, jApAn, nEw zEAlAnD, iCElAnD, mExiCo,EthiopiA, guAtEmAlA,E1 sAlvADor, thE philippinEs, AnD thE unitED stAtEs. totAl worlDwiDE proDuCtion is ApproAChing 9,000 mw (EquivAlEnt to ninE lArgE moDErn CoAl-Burning or nuClEAr powEr plAnts)--DouBlE thE Amount in 1980. somE 40 million pEoplE toDAy rECEivE thEir ElECtriCity From gEothErmAl EnErgy At A Cost CompEtitivE with thAt oF othEr EnErgy sourCEs. inE1 sAlvADor, gEothErmAl EnErgy is supplying 30% oF thE totAl ElECtriC EnErgy usED、howEvEr, At thE gloBAl lEvEl, gEothErmAl EnErgy suppliEs lEss thAn 0.15% oF thE totAl EnErgy supply.
gEothErmAl EnErgy mAy BE ConsiDErED A nonrEnEwABlE EnErgy sourCE whEn rAtEs oF ExtrACtion ArE grEAtEr thAn rAtEs oF nAturAl rEplEnishmEnt. howEvEr, gEothErrnAl EnErgy hAs its origin in thE nAturAl hEAt proDuCtion withinEArth, AnD only A smAll FrACtion oF thE vAst totAl rEsourCE BAsE is BEing utilizED toDAy. Although most gEothErmAl EnErgy proDuCtion involvEs thE tApping oF high hEAt sourCEs, pEoplE ArE Also using thE low-tEmpErAturE gEothErmAl EnErgy oF grounDwAtEr in somE AppliCAtions.
gEothErmAl systEms
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thE AvErAgE hEAt Flow From thE intErior oF thEEArth is vEry low, ABout 0.06 w/m2.
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this Amount is triviAl CompArED with thE 177 w/m2 From solAr hEAt At thE surFACE in thE unitED stAtEs. howEvEr, in somE ArEAs, hEAt Flow is suFFiCiEntly high to BE usEFul For proDuCing EnErgy. For thE most pArt, ArEAs oF high hEAt Flow ArE AssoCiAtED with plAtE tECtoniC BounDAriEs. oCEAniC riDgE systEms (DivErgEnt plAtE BounDAriEs) AnD ArEAs whErE mountAins ArE BEing upliFtED AnD volCAniC islAnD ArCs ArE Forming (ConvErgEnt plAtE BounDAriEs ArE ArEAs whErE this nAturAl hEAt Flow is AnomAlously high.
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on thE BAsis oF gEologiCAl CritEriA, sEvErAl typEs oF hot gEothErmAl systEms (with tEmpErAturEs grEAtEr thAn ABout 80℃, or 176℉) hAvE BEEn DEFinED, AnD thE rEsourCE BAsE is lArgEr thAn thAt oF Fossil FuEls AnD nuClEAr EnErgy ComBinED、A、Common systEm For EnErgy DEvElopmEnt is hyDrothErmAl ConvECtion, ChArACtErizED By thE CirCulAtion oF stEAm AnD/or hot wAtEr thAt trAnsFErs hEAt From DEpths to thE surFACE.
![]()
gEothErmAlEnErgy AnD thEEnvironmEnt
thE EnvironmEntAl impACt oF gEothErmAl EnErgy mAy not BE As ExtEnsivE As thAt oF othEr sourCEs oF EnErgy, But it CAn BE ConsiDErABlE. whEn gEothErmAl EnErgy is DEvElopED At A pArtiCulAr sitE, EnvironmEntAl proBlEms inCluDE on-sitE noisE, Emissions oF gAs, AnD DisturBAnCE oF thE lAnD At Drilling sitEs, DisposAl sitEs, roADs AnD pipElinEs, AnD powEr plAnts.DEvElopmEnt oF gEothErmAl EnErgy DoEs not rEquirE lArgE-sCAlE trAnsportAtion oF rAw mAtEriAls or rEFining oF ChEmiCAls, As DEvElopmEnt oF Fossil FuEls DoEs. FurthErmorE, gEothErmAl EnErgy DoEs not proDuCE thE AtmosphEriC pollutAnts AssoCiAtED with Burning Fossil FuEls or thE rADioACtivE wAstE AssoCiAtED with nuClEAr EnErgy. howEvEr, gEothErmAl DEvElopmEnt oFtEn DoEs proDuCE ConsiDErABlE thErmAl pollution From hot wAstE-wAtEr, whiCh mAy BE sAlinE or highly CorrosivE, proDuCing DisposAl AnD trEAtmEnt proBlEms.
gEothErmAl powEr is not vEry populAr in somE loCAtions Among somE pEoplE. For instAnCE, gEothErmAl EnErgy hAs BEEn proDuCED For yEArs on thE islAnD oF hAwAii, whErE ACtivE volCAniC
gEothErmAl EnErgy is nAturAl hEAt From thE intErior oF thEEArth thAt is ConvErtED to hEAt BuilDings AnD gEnErAtE ElECtriCity. thE iDEA oF hArnEssingEArth’s intErnAl hEAt is not nEw.As EArly As 1904, gEothErmAl powEr wAs usED in itAly. toDAy,EArth’s nAturAl intErnAl hEAt is BEing usED to gEnErAtE ElECtriCity in 21 CountriEs, inCluDing russiA, jApAn, nEw zEAlAnD, iCElAnD, mExiCo,EthiopiA, guAtEmAlA,E1 sAlvADor, thE philippinEs, AnD thE unitED stAtEs. totAl worlDwiDE proDuCtion is ApproAChing 9,000 mw (EquivAlEnt to ninE lArgE moDErn CoAl-Burning or nuClEAr powEr plAnts)--DouBlE thE Amount in 1980. somE 40 million pEoplE toDAy rECEivE thEir ElECtriCity From gEothErmAl EnErgy At A Cost CompEtitivE with thAt oF othEr EnErgy sourCEs. inE1 sAlvADor, gEothErmAl EnErgy is supplying 30% oF thE totAl ElECtriC EnErgy usED、howEvEr, At thE gloBAl lEvEl, gEothErmAl EnErgy suppliEs lEss thAn 0.15% oF thE totAl EnErgy supply.
gEothErmAl EnErgy mAy BE ConsiDErED A nonrEnEwABlE EnErgy sourCE whEn rAtEs oF ExtrACtion ArE grEAtEr thAn rAtEs oF nAturAl rEplEnishmEnt. howEvEr, gEothErrnAl EnErgy hAs its origin in thE nAturAl hEAt proDuCtion withinEArth, AnD only A smAll FrACtion oF thE vAst totAl rEsourCE BAsE is BEing utilizED toDAy. Although most gEothErmAl EnErgy proDuCtion involvEs thE tApping oF high hEAt sourCEs, pEoplE ArE Also using thE low-tEmpErAturE gEothErmAl EnErgy oF grounDwAtEr in somE AppliCAtions.
gEothErmAl systEms
on thE BAsis oF gEologiCAl CritEriA, sEvErAl typEs oF hot gEothErmAl systEms (with tEmpErAturEs grEAtEr thAn ABout 80℃, or 176℉) hAvE BEEn DEFinED, AnD thE rEsourCE BAsE is lArgEr thAn thAt oF Fossil FuEls AnD nuClEAr EnErgy ComBinED、A、Common systEm For EnErgy DEvElopmEnt is hyDrothErmAl ConvECtion, ChArACtErizED By thE CirCulAtion oF stEAm AnD/or hot wAtEr thAt trAnsFErs hEAt From DEpths to thE surFACE.
gEothErmAlEnErgy AnD thEEnvironmEnt
thE EnvironmEntAl impACt oF gEothErmAl EnErgy mAy not BE As ExtEnsivE As thAt oF othEr sourCEs oF EnErgy, But it CAn BE ConsiDErABlE. whEn gEothErmAl EnErgy is DEvElopED At A pArtiCulAr sitE, EnvironmEntAl proBlEms inCluDE on-sitE noisE, Emissions oF gAs, AnD DisturBAnCE oF thE lAnD At Drilling sitEs, DisposAl sitEs, roADs AnD pipElinEs, AnD powEr plAnts.DEvElopmEnt oF gEothErmAl EnErgy DoEs not rEquirE lArgE-sCAlE trAnsportAtion oF rAw mAtEriAls or rEFining oF ChEmiCAls, As DEvElopmEnt oF Fossil FuEls DoEs. FurthErmorE, gEothErmAl EnErgy DoEs not proDuCE thE AtmosphEriC pollutAnts AssoCiAtED with Burning Fossil FuEls or thE rADioACtivE wAstE AssoCiAtED with nuClEAr EnErgy. howEvEr, gEothErmAl DEvElopmEnt oFtEn DoEs proDuCE ConsiDErABlE thErmAl pollution From hot wAstE-wAtEr, whiCh mAy BE sAlinE or highly CorrosivE, proDuCing DisposAl AnD trEAtmEnt proBlEms.
gEothErmAl powEr is not vEry populAr in somE loCAtions Among somE pEoplE. For instAnCE, gEothErmAl EnErgy hAs BEEn proDuCED For yEArs on thE islAnD oF hAwAii, whErE ACtivE volCAniC
【分析解答题】oil shAlEs, (whiCh mAy) Furnish A (signiFiCAntly) FrACtion oF thE worlD’s FuturE EnErgy, vAry in riChnEss, (yiElDing) From Four to FiFty pErCEnt oil (By wEight).
【分析解答题】.onE (Common) hErB oF thE mint FAmily is thymE, thE (DriED) lEAvEs AnD FlowEring tops oF whiCh (is) usED (to FlAvor) mAny DiFFErEnt FooD.
【单选题】 The word "preserved" in line 8 is closest in meaning to
A.( confused with others
B.( gradually weakened
C.( protected from destruction
D.( lost permanently
A.( confused with others
B.( gradually weakened
C.( protected from destruction
D.( lost permanently
【单选题】 The word "resumed" in line 7 is closest in meaning to
A.( began again
B.( held back
C.( thought over
D.( referred to
A.( began again
B.( held back
C.( thought over
D.( referred to
【单选题】 Most geologists believe — from the remains of tiny marine plants and animals that died millions of years ago.
A.(what was formed petroleum
B.(that petroleum was formed
C.(when petroleum formed
D.(petroleum that formed
A.(what was formed petroleum
B.(that petroleum was formed
C.(when petroleum formed
D.(petroleum that formed
【单选题】 (Different fourteen) crops were (being grown) 8,600 years (ago) by some of the world's earliest (farmers).
A.Different fourteen
B.being grown
C.ago
D.farmers
A.Different fourteen
B.being grown
C.ago
D.farmers
【分析解答题】"SkinnerBox"
{$mediaurl}
Now listen to part of a lecture in a psychology class. The professor is discussing the SkinnerBox.
Question
Using the main points and examples from the lecture, describe the SkinnerBox, and then explain how the device is used in psychology experiments.
Preparation Time:20 seconds
Recording Time:60 seconds
{$mediaurl}
Now listen to part of a lecture in a psychology class. The professor is discussing the SkinnerBox.
Question
Using the main points and examples from the lecture, describe the SkinnerBox, and then explain how the device is used in psychology experiments.
Preparation Time:20 seconds
Recording Time:60 seconds
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