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习题练习:Particulate Nature of Matter B.1 Thermal Energy Transfers



 作者: admin   总分: 34分  得分: _____________

答题人: 匿名未登录  开始时间: 24年01月13日 22:46  切换到: 整卷模式

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1#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A body of water loses /r xykvx9 vp2q+-0eom energy at a constant rate. Assume that the specific heat capacity of ice is half the specific heat cae2 mv-9yrq ox0/kv p+xpacity of liquid water.
Which graph shows a possible variation of temperature with time

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2#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A chemical reaction occurs inside a sow:cq4.bc74l 8i kwfds mu/3sdlid of mass $m$ and specific heat capacity $c$. The initial temperature of the solid is $50\,K$.
What is the minimum energy that the reaction must release to increase the temperature of the solid to $100^{\circ}C$?

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3#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  An immersion heater of constant power output is usim9adcj nr /v;8 .3ldzed to supply thermal energy to a cup of water at 373 K. The heater is turned on at time t=0. Whic9 ddm;nai/ l3zrj8v.ch graph shows a possible variation of temperature T of the water, with time t?


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4#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Two solid substances of equal mass are heated with the sam,e9ldyt)i 5 6mw fjigd-rb1o( jyey 5.e power input. The graph below shows how the (er bl1yd69te w5oj.dii5m yf-j)g ,ytemperatures of the substances vary with time during heating.

Which of the following statements are correct?
I. Substance A has a lower specific heat capacity than Substance B when they are in the same physical state.
II. The specific heat capacity of each substance is lower in the solid state than the liquid state.
III. Substance A has a lower specific latent heat of fusion than Substance B.

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5#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A sealed container contains a mixturercc+ 5ealvea0 8w(5/yzg 2m ya of hydrogen and nitrogen gas.
The ratio ${mass\,of\,a\,hydrogen\,molecule}{mass\,of\,a\,nitrogen\,molecule}$=$\frac{1}{7}$The ratio $\frac{average\,kinetic\,energy\,of\,hydrogen}{average\,kinetic\,energy\,of\,nitrogen}$is

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6#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  In an experiment, a liquid-filled beaker is positioned on an electronic balan+q /g g )mnik5b0kdsq:ce. An immersion heater with a power rating of P is introduced into the water. Once the water begins to boil, a researcher monitored the change in mass m of the liquid over time t once the boilingi 0g kkdn)b:/g q+qm5s commenced.

The theoretically predicted relationship between time $t$ and $m$ is $L_v$​=$frac{Pt}{C−m}$​
$C$ is the initial mass of the liquid when $t=0\,s$ and $L_v$​ is the latent heat of vaporisation of water.
1.Give the units of $L_v$​ in fundamental SI units.
2.In a particular experiment, the researcher uses a heater of power 65.0±0.1 W and measures m=0.120±0.001kg, C=0.125±0.001 kg, and t=600±1 s.
(1)Calculate the percentage error in the measured value of $L_v$​. $The\,percentage\,error\,of\,L_v$​
=    %
(2)For this experiment, calculate the value of $L_v$​ and its absolute uncertainty. $L_v$​ =    $\times10^6\,Jkg^{-1}$
(3)The accepted value of $L_v​$ is $2.3\times10^6\,Jkg^{−1}$. Explain why the experimental value does not match the accepted value.
3.The researcher plots a graph to show how m varies with $t$.
(1)Outline why P must be kept constant during the experiment.
(2)Assuming the relationship $L_v$​=$\frac{Pt}{C−m}$​ is correct, sketch the expected mass-time relationship on the axes below. (There is no need to put numbers to the axes).


(3)Outline how to obtain the value of $L_v$​ from the graph you have drawn in c(ii).

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7#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Two ideal gases $A$ and $B$ of molar masses $m_A​>m_B$​ are initially at absolute temperatures $T_A​

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8#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A material with a mass of m is heated. The graph shows the nl:k,.x;tsu0 fj fd 2n5fz+pzvariation of the temperature of the material withnz+fz j.l0,d:uf n fpx 5ks2;t the energy supplied.

Which one of the following gives the specific heat capacity of the material?

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9#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A spherical object of surface ar8*b8 l*t(lqxs -dae,y7gcdjv ea $A$ and absolute temperature $T$ can be regarded as a black body. The power of the radiation emitted from the object is $P$. What would be the power of the radiation emitted by an object with an absolute temperature of $2T$and a surface area of $\frac{A}{2}$​?

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10#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Water in a beaker is heated on a8q(0q;f61s gvjd,sxw (ikal h hot plate at a rate P. The graph shows the change in tem 0,xvl;g(j6w (aq8shs 1kfidq perature of the water over time.

Which graph correctly shows the new change in temperature of the water when the rate of thermal energy transfer is increased?
The original graph is shown by the dotted line.


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11#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  1,Define specific heat ca k6dt4vjvlb * .8uer4rpacity.
2,A sample of a substance initially in the solid state of mass of 200 g is heated by a heater of constant power. The variation of the temperature T with time t is shown on the graph below.

(1)The specific heat capacity of the sample in the liquid state is $1400\,J\,kg^{−1}K^{−1}$. Determine the power of the heater. P =    W
(2)Determine the specific latent heat of vaporization of the sample. L =   $J\,kg^{−1}$
(3)Explain, by considering the molecular model, why the time needed to boil the sample is more than the time needed for melting the same sample.
(4)It is realized that some of the sample in the liquid state evaporates during the heating process. State two differences between evaporation and boiling.

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12#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  An object has a surf py-7 ,8omdxf)psymk 6ace area of $2.0\,m^2$ and emissivity $e=0.5$. The object emits electromagnetic radiation of peak wavelength $2.90\times10^{−5}\,m$. What is the best estimate for the energy radiated by the object in one second?

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13#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  1.A “Newton's cradle” contains a row of five touching metal balls, each-p73; dai/9yv tmbuy d of mass 1.0 g and specific heat capacity -uti3p; 7bd9yd/a vym 400 $J\,kg^{-1}\,K^{−1}$, suspended from light strings of length 30 cm.
With its string kept taut, Ball 1 is released from rest at an angle of $60^{\circ}C$ to the vertical, causing it to collide with the other four balls. During every resulting collision, the moving ball comes to rest and most of its kinetic energy is transferred to the ball on the opposite end of the row. The remaining three balls remain stationary. It can be assumed that the size of each ball is negligible. $ΔT_{max}​$ =    mK

Assuming all energy from the ball is converted to thermal energy in the balls, determine the temperature increase of the five balls after the system has come to rest.
2.Explain why changing the mass of each ball, without altering its material, does not affect the final temperature.
3.(1)Balls 2-5 are replaced with an ice block of mass 9.0 g. Ball 1 is thrown horizontally so that it embeds itself in the ice at a velocity of 10.0 $m\,s^{−1}$. The ball/ice system slides frictionlessly along the surface after the collision. Determine speed of the system as it slides. $v_f$ =    $m\,s^{-1}$
(2)Show that the amount of energy converted to thermal energy in the collision is 45 mJ. $E_{heat}$ ​=    mJ
4.Estimate the percentage of the ice that melts, assuming that no energy is lost from the system. The system is at an initial temperature of $0^{\circ}C$.
Specific latent heat of fusion of ice = 333 $kJ\,kg^{−1}$ Percentage melted is therefore =    %

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14#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Water of mass m at an initial temperature of g;s3lv hp0u: 6ad ;jmo$20^{\circ}C$ oC is provided with thermal energy at a rate P. Its temperature rises to $30^{\circ}C$ in time t.
The rate of energy transfer is doubled and the mass of the water is halved. What is the final temperature, in time t, if the initial temperature is again $20^{\circ}C$?

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15#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A hot sphere of temperature T and su0 +n(3l3vues jnp pdmra;9p -prface area $A_1$​ radiates towards a metal plate of area $A_2$​ that is a very large distance D away. Which of the following expressions gives the rate at which radiant energy is received by the plate?




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16#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Which of the graphs below best describes the change in averay;: u*bgynlo1( +ijiy ge kinetic energy of the molecules of a beaker of water as it is heateyl;1n+ u:oyybgi(i*jd at a constant rate until it completely boils away?


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17#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  100 ml of water at $20^{\circ}C$ is poured in an aluminum container and heated at a constant rate until all of the water is boiled. After time $t_1$​ water starts to boil, and at time $t_2$ all of the water has boiled away.
Which of the following statements are correct?
I. If a glass container with the same mass is used instead of aluminum, $t_1$​ increases. ($c_glass$<$c_aluminum$​)
II. If the container with water is thermally isolated,$t_2$ decreases.
III. If more water is added to the container, $t_1$  increases.

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18#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  1.In an experiment, a beaker containing liquid of mass m is heateoq :vq s0m z p8-(*qnwog4wv7xd with a heater of power P. Then the variation of temperature T of the liquid q-z( pgqvx8*vnowwq 4m:s70owith time t is recorded.

The data from the experiment is shown on the graph below.

(1)On the graph, draw the line of best fit for the data.
(2)Explain why it can not be concluded that the relationship between temperature and time is directly proportional.
2.Theory suggests that
$frac{T-T_0}{t}$=K
where$T_0$​ is the temperature when t=0 s.
(1)Using the data given, calculate the percentage uncertainty of $(T−T_0​$) at time 25s. $T_0$ =    %
(2)Use the graph to determine constant k.
(3)Theory also suggests that another expression for k is given by
$k=frac{P}{mc}$​, where c is another constant.
Determine the units of constant c, expressing your answer in fundamental SI units.

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19#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A 100g chocolate bar is p 0 g u80fdp,ftr8xnd84oq 6lfilaced onto a hot plate. The chocolate is initially at its melting temperatureuiofq48 flgt d8p0f 8,60 nrxd of $30^{\circ}C$.
Heat is transferred from the plate to the chocolate at a constant rate $P_{in​}$ of 12W, causing it to melt at a constant rate of $6\,g\,min^{−1}$. After all the chocolate has melted, the liquid chocolate continues to heat to a temperature of $353\,K$.
Specific heat capacity of melted chocolate = $1.0\,kJkg^{−1}K^{−1}$
Specific latent heat of fusion of chocolate = $50\,Jg^{−1}$

1.State how the kinetic and potential energy of the chocolate change as it melts.
2.(1)Determine the amount of energy required to heat the liquid chocolate from the melting temperature to 353K. ΔE =    kJ
(2)Show that approximately 58% of the supplied energy is lost to the surroundings while the chocolate is melting. $As\,a\,percentage\,of\,the total energy, this\,gives$ =    %
3.The graph shows how the temperature of the chocolate changes with time.

Draw on the same graph a new line to show how temperature would change for a larger mass of chocolate with the same starting conditions.

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20#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  1.An electric heater wittr/kj,ji dixbjtpc65564 2n zh a power rating of 2.8 kW heats liquid that flows through it. The temperature of the liquid increases from/p,nx 5jiikt2tjc665 jr4 bzd  $18^{\circ}C$ to $38^{\circ}C$while passing through the heater. The flow rate of the liquid σ is $0.035\,kgs^{−1}$. Calculate the specific heat capacity of the liquid. c =    $J\,kg^{-1}\,K^{-1}$
2.Suggest whether your answer for (a) is above or below the actual value of the specific heat capacity. Justify your answer.

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21#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  1.An object X of surface . r+hc-c nx*7kr*vvkx area $24.3\,cm^2$ emits 300W of radiation when its temperature is 1215K.
(1)State what is meant by emissivity.
(2)Show that this object is a blackbody radiator. e ≈   
2.Calculate the peak wavelength of the emitted radiation. $λ_{max}$ =    $\times10^{-6}\,m$
3.The object X is left to cool down until it reaches 800K. On the axes given, sketch the variation of intensity with wavelength of the radiation of object X at both the original 1215K and the cooler temperature of 800K. Label the graphs.


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22#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  Black body X at kelvin tempiicw;abmx .h+q -/cy 4erature T has surface area A and total radiation power Pmb w-c ac.y ;xi4q/h+i. If black body Y has temperature 2T and total radiation power of 2P, what is the surface area of Y?

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23#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A pendulum consists of m-)a0:av zmvp b*wx:ok 1;q kba mass M with a specific heat capacity S suspended from a point by a light string of length L. The pendulum is placed in an insulated container filled with a mass 2M of liquid with a specific heat capacity 2Swx k)bmz:o*vm0k pa1q:- vab;. The pendulum is released from rest with the string horizontal. Assume that acceleration due to gravity is g and that both have the same starting temperature.

If all of the energy from the pendulum is converted to thermal energy, what is the temperature change of the liquid?

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24#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  An ice cube of mass m at its melting temperature is placed in a /bh e9jjs4vgf6ljp2p q05g t:mass M of water at an init hf/ppgbe26sj q:tj jvl4g 059ial temperature of $20^{\circ}C$. Assume that the specific heat capacity of liquid water is $4\,kJ\,kg\,K^{−1}$ and it has a specific latent heat of fusion of $320\,Jg^p{−1}$.

Assuming that the system is thermally isolated , what is the minimum value of M required for the ice to completely melt?

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25#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  1.Define the specific latent heat of fusi r1/m: kjx7ysaon.
2.An ice cube of temperature $-20^{\circ}C$ and mass 45g is placed in a bottle which is half filled with water of temperature $40^{\circ}C$and mass 1.2kg. Energy transfer only happens between the water and the ice.
The following data is available:
Specific latent heat of fusion of ice =$3.3\times10^5\,Jkg^{−1}$
Specific heat capacity of ice =$2.2\times10^3\,Jkg^{−1}K^{−1}$
Specific heat capacity of water = $4.2\times10^3$ $J$$kg^{−1}K^{−1}$
(1)Determine the final temperature T of the water. T =    $^{\circ}C$
(2)On the graph below, sketch how only the mass of water in the bottle varies with the temperature.
(no need to add values on the axes)



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26#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  The graph shows how the temperature of a solid wax block var- px-x1 acmoc yy4xc53kxmwv13os0; 91zw wzzies with time. The solid wax has a specific heat capacity x-9xox 5z1 wmy1k1ww4c33z ya - vocx;zmp 0csof $2\,kJ\,kg^{−1}K^{−1}$ and it absorbs heat at a rate of 20W.



What is the specific latent heat of fusion of wax?

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27#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A thermally isolated system consists of a ,elj kkh-l) vi6z1t* ocoin of weight mg and specific heat capacity c suspended in a vacuum at a vertical distance H above a solid block. The block has mass 4m, specific heat capacity 2c and latent heat of fusion L. The melting temperature of the block is an amount ΔT greater than the initial temperajl- k)k*lhv etz1 o6i,ture of the block and the coin. The coin is dropped on to the block.


What is the minimum value of H required for the block to melt due to the collision?

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28#
 
填空题 ( 1.0 分) 切至整卷模式 搜藏此题  
  1.Distinguish between an ideal gas and a non-iderlhkw-(3mw owafdj2k u hi4 8 /jl576mal gas with reference to the internal energy of the moleculewj i/uamhl-h4mrdl 6f7 2kwo58w jk(3 s.
2.An ideal gas of mass 20g is heated in a sealed container. The temperature of the gas is increased from $127^{\circ}C$ to $327^{\circ}C$. The specific heat capacity of the gas at constant volume is $2.5\times10^4\,Jkg^{−1}K^{−1}$.
(1)Calculate the increase in total kinetic energy of the molecules of the ideal gas. The increase in total kinetic energy of the ideal gas is =    $\times10^5\,J$
(2)The average speeds of the molecules at $127^{\circ}C$ to $327^{\circ}C$ are $v_i$​ and $v_f$​ respectively. Calculate $\frac{v_i}{v_f}$​. $\frac{v_i}{v_f}$ =   

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29#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A temperature-time gr)*lwmk2 (le snj; o)ewaph for the heating of 100 g of a substance is shown, from its state as a solid to its state as a gas. The material is being heated in a well-insulated container at a constant heating rate of 50 W*(se; wnllem w2k )j)o. It is assumed that mass remains constant and no heat is lost to the surroundings.

What is the specific heat capacity of the material in the liquid state?

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30#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A substance, initially seoj8 ilvn1h,4olid of mass 2.00 kg is heated by a 4.0 kW electric heater causing it to melt. During heating, the substance also exchanges heat with its surroundings. The substance starts melting immediately and has fully turned to liquid after 400 s. Given that the specific latent he8e4,vi 1njoh lat of fusion of the solid is $900\,kJkg^{−1}$, what is the average rate of heat transfer between the substance and the surroundings in one second?

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31#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A liquid of mass M, temperatuuykeev, ;/jzj-h4-ix re 4T specific heat capacity S is held in an insulated container of neglike- e;z/h -xvjiy4ju ,gible mass. A second liquid of mass 2M, temperature T and specific heat capacity 3S is added to the container.
What is the equilibrium temperature of the mixture?

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32#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A thin metal plate of mass m is held at an absolute temperature T, in an en8x.8kx7q lwsjw2f+mtdh yr*,closure of temperatut 8lwx2qmjd.f kh*7w y8xs+,rre $T_s$​

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33#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  A hollow, insulated ring is packed with /z30l kihk8vm a mass M of ice pellets at an initial temperature of vk l/k8i3hz0m$0^{\circ}C$. A mass 3M of steam is injected into the ring and circulates around it at an initial temperature of $100^{\circ}C$. Assume that the specific latent heat of vaporization is seven times the specific latent heat of fusion L.
L is also equal to the energy required to increase the temperature of a unit mass of liquid water by $80^{\circ}C$.


What are the final states of matter in the ring?

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34#
 
单选题 ( 1.0 分) 切至整卷模式 搜藏此题  
  In order to calculate the specific latent heat of fusion of ice, a mass m of i1086cyemn n, n7 m/q0qznuvuice at a temperatnnv n u0,10yeu7m8nq ci6z/qmure of $-2^{\circ}C$ was left inside a beaker until it changed into water at $20^{\circ}C$.


If q is the energy needed to make this change for 1 kilogram of ice, the specific heat capacity of ice is $c_i$​, the specific heat capacity of water is $c_w$​, and the specific latent heat of fusion of ice is $L_F$​.
Which expression gives the specific latent heat of fusion of ice $L_F$​?

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