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Deck 18: Temperature, Heat, and the First Law of Thermodynamics

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Question
Room temperature is about 20 degrees on the:

A)Kelvin scale
B)Celsius scale
C)Fahrenheit scale
D)absolute scale
E)C major scale
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Question
There is a temperature at which the reading on the Kelvin scale is numerically:

A)equal to that on the Celsius scale
B)lower than that on the Celsius scale
C)equal to that on the Fahrenheit scale
D)less than zero
E)none of the above
Question
A balloon is filled with cold air and placed in a warm room.It is NOT in thermal equilibrium with the air of the room until

A)it rises to the ceiling
B)it sinks to the floor
C)it stops expanding
D)it starts to contract
E)none of the above
Question
What is the limiting low temperature of a physical object?

A)there is no limiting low temperature
B)0 K
C)0° C
D)0° F
E)-100° C
Question
If two objects are in thermal equilibrium with each other

A)they cannot be moving
B)they cannot be undergoing an elastic collision
C)they cannot have different pressures
D)they cannot be at different temperatures
E)they cannot be falling in the Earth's gravitational field
Question
When a certain constant volume gas thermometer is in thermal contact with water at its triple point (273.16 K)the pressure is 6.30 x 104 Pa.For this thermometer a kelvin corresponds to a change in pressure of about:

A)4.34 x 102 Pa
B)2.31 x 102 Pa
C)1.72 x 103 Pa
D)2.31 x 103 Pa
E)1.72 x 107 Pa
Question
Constant-volume gas thermometers using different gases all indicate nearly the same temperature when in contact with the same object if:

A)the volumes are all extremely large
B)the volumes are all the same
C)the pressures are all extremely large
D)the pressures are the same
E)the particle concentrations are all extremely small
Question
When two gases separated by a diathermal wall are in thermal equilibrium with each other:

A)only their pressure must be the same
B)only their volumes must be the same
C)they must have the same number of particles
D)they must have the same pressure and the same volume
E)only their temperatures must be the same
Question
In constructing a thermometer it is NECESSARY to use a substance that:

A)expands with rising temperature
B)expands linearly with rising temperature
C)will not freeze
D)will not boil
E)undergoes some change when heated or cooled
Question
The zeroth law of thermodynamics allows us to define

A)work
B)pressure
C)temperature
D)thermal equilibrium
E)internal energy
Question
If the zeroth law of thermodynamics were not valid, which of the following could not be considered a property of an object?

A)Pressure
B)Center of mass energy
C)Internal energy
D)Momentum
E)Temperature
Question
A thermometer indicates 98.6°C.It may be:

A)outdoors on a cold day
B)in a comfortable room
C)in a cup of hot tea
D)in a normal person's mouth
E)in liquid air
Question
A constant-volume gas thermometer is used to measure the temperature of an object.When the thermometer is in contact with water at its triple point (273 K)the pressure in the thermometer is 8.50 x 104 Pa.When it is in contact with the object the pressure is 9.65 x 104 Pa.The temperature of the object is:

A)41.0 K
B)114 K
C)241 K
D)310 K
E)314 K
Question
The diagram shows four thermometers, labeled W, X, Y, and Z.The freezing and boiling points of water are indicated.Rank the thermometers according to the size of a degree on their scales, smallest to largest. <strong>The diagram shows four thermometers, labeled W, X, Y, and Z.The freezing and boiling points of water are indicated.Rank the thermometers according to the size of a degree on their scales, smallest to largest. </strong> A)W, X, Y, Z B)Y, W, X, Z C)Z, Y, W, X D)Z, X, W, Y E)W, Y, Z, X <div style=padding-top: 35px>

A)W, X, Y, Z
B)Y, W, X, Z
C)Z, Y, W, X
D)Z, X, W, Y
E)W, Y, Z, X
Question
The "triple point" of a substance is that point for which the temperature and pressure are such that:

A)only solid and liquid are in equilibrium
B)only liquid and vapor are in equilibrium
C)only solid and vapor are in equilibrium
D)solid, liquid and vapor are all in equilibrium
E)the temperature, pressure and density are all numerically equal
Question
The international standard thermometer is kept:

A)near Washington, D.C.
B)near Paris, France
C)near the north pole
D)near Rome, Italy
E)nowhere (there is none)
Question
A Kelvin thermometer and a Fahrenheit thermometer both give the same reading for a certain sample.The corresponding Celsius temperature is:

A)574°C
B)232°C
C)301°C
D)614°C
E)276°C
Question
Fahrenheit and Kelvin scales agree numerically at a reading of:

A)-40°
B)0°
C)273°
D)301°
E)574°
Question
Suppose object C is in thermal equilibrium with object A and with object B.The zeroth law of thermodynamics states:

A)that C will always be in thermal equilibrium with both A and B
B)that C must transfer energy to both A and B
C)that A is in thermal equilibrium with B
D)that A cannot be in thermal equilibrium with B
E)nothing about the relationship between A and B
Question
Which one of the following statements is true?

A)temperatures differing by 25°on the Fahrenheit scale must differ by 45°on the Celsius scale
B)40 K corresponds to -40°C
C)temperatures which differ by 10° on the Celsius scale must differ by 18° on the Fahrenheit scale
D)water at 90°C is warmer than water at 202°F
E)0°F corresponds to -32°C
Question
Thin strips of iron and zinc are riveted together to form a bimetallic strip which bends when heated.The iron is on the inside of the bend because:

A)it has a higher coefficient of linear expansion
B)it has a lower coefficient of linear expansion
C)it has a higher specific heat
D)it has a lower specific heat
E)it conducts heat better
Question
An annular ring of aluminum is cut from an aluminum sheet as shown.When this ring is heated: <strong>An annular ring of aluminum is cut from an aluminum sheet as shown.When this ring is heated: </strong> A)the aluminum expands outward and the hole remains the same in size B)the hole decreases in diameter C)the area of the hole expands the same percent as any area of the aluminum D)the area of the hole expands a greater percent than any area of the aluminum E)linear expansion forces the shape of the hole to be slightly elliptical <div style=padding-top: 35px>

A)the aluminum expands outward and the hole remains the same in size
B)the hole decreases in diameter
C)the area of the hole expands the same percent as any area of the aluminum
D)the area of the hole expands a greater percent than any area of the aluminum
E)linear expansion forces the shape of the hole to be slightly elliptical
Question
A heat of transformation of a substance is:

A)the energy absorbed as heat during a phase transformation
B)the energy per unit mass absorbed as heat during a phase transformation
C)the same as the heat capacity
D)the same as the specific heat
E)the same as the molar specific heat
Question
Metal pipes, used to carry water, sometimes burst in the winter because:

A)metal contracts more than water
B)outside of the pipe contracts more than the inside
C)metal becomes brittle when cold
D)ice expands when it melts
E)water expands when it freezes
Question
A gram of distilled water at 4°C:

A)will increase slightly in weight when heated to 6°C
B)will decrease slightly in weight when heated to 6°C
C)will increase slightly in volume when heated to 6°C
D)will decrease slightly in volume when heated to 6°C
E)will not change in either volume or weight
Question
The figure shows a rectangular brass plate at 0°C in which there is cut a rectangular hole of dimensions indicated.If the temperature of the plate is raised to 150°C: <strong>The figure shows a rectangular brass plate at 0°C in which there is cut a rectangular hole of dimensions indicated.If the temperature of the plate is raised to 150°C: </strong> A)x will increase and y will decrease B)both x and y will decrease C)x will decrease and y will increase D)both x and y will increase E)the changes in x and y depend on the dimension z <div style=padding-top: 35px>

A)x will increase and y will decrease
B)both x and y will decrease
C)x will decrease and y will increase
D)both x and y will increase
E)the changes in x and y depend on the dimension z
Question
Possible units for the coefficient of volume expansion are:

A)mm/C°
B)mm3/C°
C)(C°)3
D)1/(C°)3
E)1/C°
Question
The Stanford linear accelerator contains hundreds of brass disks tightly fitted into a steel tube (see figure).The coefficient of linear expansion of the brass is 2.00 x 10-5 per C°.The system was assembled by cooling the disks in dry ice (-57°C)to enable them to just slide into the close-fitting tube.If the diameter of a disk is 80.00 mm at 43°C, what is its diameter in the dry ice? <strong>The Stanford linear accelerator contains hundreds of brass disks tightly fitted into a steel tube (see figure).The coefficient of linear expansion of the brass is 2.00 x 10<sup>-5</sup> per C°.The system was assembled by cooling the disks in dry ice (-57°C)to enable them to just slide into the close-fitting tube.If the diameter of a disk is 80.00 mm at 43°C, what is its diameter in the dry ice? </strong> A)78.400 mm B)79.998 mm C)80.160 mm D)79.840 mm E)none of these <div style=padding-top: 35px>

A)78.400 mm
B)79.998 mm
C)80.160 mm
D)79.840 mm
E)none of these
Question
One degree is the same on the following temperature scales:

A)Fahrenheit and Celsius
B)Fahrenheit and Kelvin
C)Celsius and Kelvin
D)Fahrenheit and Absolute
E)none of the above
Question
The two metallic strips that constitute some thermostats must differ in:

A)length
B)thickness
C)mass
D)rate at which they conduct heat
E)coefficient of linear expansion
Question
A surveyor's 30-m steel tape is correct at 68°F.On a hot day the tape has expanded to 30.02 m.On that day, the tape indicates a distance of 15.52 m between two points.The true distance between these points is:

A)15.50 m
B)15.51 m
C)15.52 m
D)15.53 m
E)15.54 m
Question
The air temperature on a summer day might be about:

A)0°C
B)10°C
C)25°C
D)80°C
E)125°C
Question
The mercury column in an ordinary medical thermometer doubles in length when its temperature changes from 95°F to 105°F.Choose the correct statement:

A)the coefficient of volume expansion of mercury is 0.10 per F°
B)the coefficient of volume expansion of mercury is 0.30 per F°
C)the coefficient of volume expansion of mercury is (0.10/3)per F°
D)the vacuum above the column helps to "pull up" the mercury this large amount
E)none of the above is true
Question
The coefficient of expansion of a certain type of steel is 0.000012 per C°.The coefficient of volume expansion is:

A)(0.000012)3 (C°)-1
B)(4°/3)(0.000012)3 (C°)-1
C)3 ° 0.000012 (C°)-1
D)0.000012 (C°)-1
E)depends on the shape of the volume to which it will be applied
Question
The coefficient of linear expansion of steel is 11 x 10-6 per C°.A steel ball has a volume of exactly 100 cm3 at 0°C.When heated to 100°C, its volume becomes:

A)100.33 cm3
B)100.11 cm3
C)100.0011 cm3
D)100.0033 cm3
E)none of these
Question
It is more difficult to measure the coefficient of volume expansion of a liquid than that of a solid because:

A)no relation exists between linear and volume expansion coefficients
B)a liquid tends to evaporate
C)a liquid expands too much when heated
D)a liquid expands too little when heated
E)the containing vessel also expands
Question
The diagram shows four rectangular plates and their dimensions.All are made of the same material.The temperature now increases.Of these plates: <strong>The diagram shows four rectangular plates and their dimensions.All are made of the same material.The temperature now increases.Of these plates: </strong> A)the vertical dimension of plate 1 increases the most and the area of plate 1 increases the most B)the vertical dimension of plate 2 increases the most and the area of plate 4 increases the most C)the vertical dimension of plate 3 increases the most and the area of plate 1 increases the most D)the vertical dimension of plate 4 increases the most and the area of plate 3 increases the most E)the vertical dimension of plate 4 increases the most and the area of plate 4 increases the most <div style=padding-top: 35px>

A)the vertical dimension of plate 1 increases the most and the area of plate 1 increases the most
B)the vertical dimension of plate 2 increases the most and the area of plate 4 increases the most
C)the vertical dimension of plate 3 increases the most and the area of plate 1 increases the most
D)the vertical dimension of plate 4 increases the most and the area of plate 3 increases the most
E)the vertical dimension of plate 4 increases the most and the area of plate 4 increases the most
Question
When the temperature of a copper penny is increased by 100 C°, its diameter increases by 0.17%.The area of one of its faces increases by:

A)0.17%
B)0.34%
C)0.51%
D)0.13%
E)0.27%
Question
The coefficient of linear expansion of iron is 10-5 per C°.The volume of an iron cube, 5 cm on edge, will increase by what amount if it is heated from 10°C to 60°C?

A)0.00375 cm3
B)0.1875 cm3
C)0.0225 cm3
D)0.0075 cm3
E)0.0625 cm3
Question
The thermal energy of an object is associated with:

A)its kinetic energy
B)its potential energy
C)its inertia
D)the random motions of its molecules
E)the collective motions of its molecules
Question
During the time that latent heat is involved in a change of state:

A)the temperature does not change
B)the substance always expands
C)a chemical reaction takes place
D)molecular activity remains constant
E)kinetic energy changes into potential energy
Question
A cube of aluminum has an edge length of 20 cm.Aluminum has a density 2.7 times that of water (1 g/cm3)and a specific heat 0.217 times that of water (1 cal/g°C ).When the internal energy of the cube increases by 47000 cal its temperature increases by:

A)5 C°
B)10 C°
C)20 C°
D)100 C°
E)200 C°
Question
The same energy Q enters five different substances as heat.Which of these has the greatest specific heat?

A)The temperature of 3 g of substance A increases by 10 K
B)The temperature of 4 g of substance B increases by 4 K
C)The temperature of 6 g of substance C increases by 15 K
D)The temperature of 8 g of substance D increases by 5 K
E)The temperature of 10 g of substance E increases by 10 K
Question
For constant volume processes the heat capacity of gas A is greater than the heat capacity of gas B.We conclude that when they both absorb the same energy as heat at constant volume:

A)the temperature of A increases more than the temperature of B
B)the temperature of B increases more than the temperature of A
C)the internal energy of A increases more than the internal energy of B
D)the internal energy of B increases more than the internal energy of A
E)A does more positive work than B
Question
The specific heat of a substance is:

A)the amount of heat energy to change the state of one gram of the substance
B)the amount of heat energy per unit mass emitted by oxidizing the substance
C)the amount of heat energy per unit mass to raise the substance from its freezing to its boiling point
D)the amount of heat energy per unit mass to raise the temperature of the substance by 1°C
E)the temperature of the object divided by its mass
Question
The three phases of matter are:

A)new, half, full
B)earth, air, fire
C)static, kinetic, potential
D)solid, liquid, gas
E)plasma, vapor, fluid
Question
The formation of ice from water is accompanied by:

A)absorption of energy as heat
B)temperature increase
C)decrease in volume
D)an evolution of heat
E)temperature decrease
Question
Two different samples have the same mass and temperature.Equal quantities of energy are absorbed as heat by each.Their final temperatures may be different because the samples have different:

A)thermal conductivities
B)coefficients of expansion
C)densities
D)volumes
E)heat capacities
Question
Take the mechanical equivalent of heat as 4 J/cal.A 10-gram bullet moving at 2000 m/s plunges into 1 kg of paraffin wax (specific heat 0.7 cal/g .°C).The wax was initially at 20°C.Assuming that all the bullet's energy heats the wax, its final temperature is:

A)20.14 °C
B)23.5 °C
C)20.006 °C
D)27.1 °C
E)48.6 °C
Question
An insulated container, filled with water, contains a thermometer and a paddle wheel.The paddle wheel can be rotated by an external source.This apparatus can be used to determine:

A)specific heat of water
B)relation between kinetic energy and absolute temperature
C)thermal conductivity of water
D)efficiency of changing work into heat
E)mechanical equivalent of heat
Question
The heat of fusion of water is 79.5 cal/g.This means 79.5 cal of energy are required to:

A)raise the temperature of 1 g of water by 1 K
B)turn 1 g of water to steam
C)raise the temperature of 1 g of ice by 1 K
D)melt 1 g of ice
E)increase the internal energy of 1 g of water by 1 J
Question
Object A, with heat capacity CA and initially at temperature TA, is placed in thermal contact with object B, with heat capacity CB and initially at temperature TB.The combination is thermally isolated.If the heat capacities are independent of the temperature and no phase changes occur, the final temperature of both objects is:

A)(CATA - CBTB)/(CA + CB)
B)(CATA + CBTB)/(CA + CB)
C)(CATA - CBTB)/(CA - CB)
D)<strong>Object A, with heat capacity C<sub>A</sub> and initially at temperature T<sub>A</sub>, is placed in thermal contact with object B, with heat capacity C<sub>B</sub> and initially at temperature T<sub>B</sub>.The combination is thermally isolated.If the heat capacities are independent of the temperature and no phase changes occur, the final temperature of both objects is:</strong> A)(C<sub>A</sub>T<sub>A</sub> - C<sub>B</sub>T<sub>B</sub>)/(C<sub>A</sub> + C<sub>B</sub>) B)(C<sub>A</sub>T<sub>A</sub> + C<sub>B</sub>T<sub>B</sub>)/(C<sub>A</sub> + C<sub>B</sub>) C)(C<sub>A</sub>T<sub>A</sub> - C<sub>B</sub>T<sub>B</sub>)/(C<sub>A</sub> - C<sub>B</sub>) D) E) <div style=padding-top: 35px>
E)<strong>Object A, with heat capacity C<sub>A</sub> and initially at temperature T<sub>A</sub>, is placed in thermal contact with object B, with heat capacity C<sub>B</sub> and initially at temperature T<sub>B</sub>.The combination is thermally isolated.If the heat capacities are independent of the temperature and no phase changes occur, the final temperature of both objects is:</strong> A)(C<sub>A</sub>T<sub>A</sub> - C<sub>B</sub>T<sub>B</sub>)/(C<sub>A</sub> + C<sub>B</sub>) B)(C<sub>A</sub>T<sub>A</sub> + C<sub>B</sub>T<sub>B</sub>)/(C<sub>A</sub> + C<sub>B</sub>) C)(C<sub>A</sub>T<sub>A</sub> - C<sub>B</sub>T<sub>B</sub>)/(C<sub>A</sub> - C<sub>B</sub>) D) E) <div style=padding-top: 35px>
Question
The heat capacity of object B is twice that of object A.Initially A is at 300 K and B is at 450 K.They are placed in thermal contact and the combination is isolated.The final temperature of both objects is:

A)300 K
B)350 K
C)400 K
D)450 K
E)600 K
Question
The energy given off by 300 grams of an alloy as it cools by 50°C raises the temperature of 300 grams of water from 30°C to 40°C.The specific heat of the alloy is:

A)5.0 cal/g °C
B)0.10 cal/g °C
C)0.15 cal/g °C
D)0.20 cal/g °C
E)0.50 cal/g °C
Question
Heat is:

A)energy transferred by virtue of a temperature difference
B)energy transferred by macroscopic work
C)energy content of an object
D)a temperature difference
E)a property objects have by virtue of their temperatures
Question
Heat has the same units as:

A)temperature
B)work
C)energy/time
D)heat capacity
E)energy/volume
Question
The heat capacity of an object is:

A)the amount of heat energy to raise its temperature by 1°C
B)the amount of heat energy to change its state without changing its temperature
C)the amount of heat energy per kilogram to raise its temperature by 1°C
D)the ratio of its specific heat to that of water
E)the change in its temperature caused by adding 1 J of heat
Question
The specific heat of lead is 0.030 cal/g. °C.300 g of lead shot at 100°C is mixed with 100 g of water at 70°C in an insulated container.The final temperature of the mixture is:

A)100°C
B)85.5°C
C)79.5°C
D)74.5°C
E)72.5°C
Question
A calorie is about:

A)0.24 J
B)8.3 J
C)250 J
D)4.2 J
E)4200 J
Question
A metal sample of mass M requires a power input P to just remain molten.When the heater is turned off, the metal solidifies in a time T.The specific latent heat of fusion of this metal is:

A)P/MT
B)T/PM
C)PM/T
D)PMT
E)PT/M
Question
In the first law of thermodynamics, the sign of the heat transfer Q:

A)is positive if the system gives energy as heat to the environment and negative if it absorbs energy as heat from the environment
B)is negative if the system gives energy as heat to the environment and positive if it absorbs energy as heat from the environment
C)is always positive
D)is always negative
E)depends on the sign of the work being done
Question
How many calories are required to change one gram of 0°C ice to 100°C steam? The latent heat of fusion is 80 cal/g and the latent heat of vaporization is 540 cal/g.The specific heat of water is 1.00 cal/g ° K.

A)100 cal
B)540 cal
C)620 cal
D)720 cal
E)900 cal
Question
A certain humidifier operates by raising water to the boiling point and then evaporating it.Every minute 30 g of water at 20°C are added to replace the 30 g that are evaporated.The heat of fusion of water is 333 kJ/kg, the heat of vaporization is 2256 kJ/kg, and the specific heat is 4190 J/kg How many joules of energy per minute does this humidifier require?

A)4800 J/min
B)18,600 J/min
C)24,600 J/min
D)77,700 J/min
E)10,100,000 J/min
Question
Steam at 100°C enters a radiator and leaves as water (at 80°C).Take the heat of vaporization to be 540 cal/g.Of the total energy given off as heat, what percent arises from the cooling of the water?

A)100%
B)54%
C)26%
D)14%
E)3.6%
Question
In the figure, a gas undergoes a transition from point A to point B along the path shown.How much work is done by the gas? <strong>In the figure, a gas undergoes a transition from point A to point B along the path shown.How much work is done by the gas? </strong> A)10 kJ B)13 kJ C)23 kJ D)-23 kJ E)0 kJ <div style=padding-top: 35px>

A)10 kJ
B)13 kJ
C)23 kJ
D)-23 kJ
E)0 kJ
Question
A system undergoes an adiabatic process in which its internal energy increases by 20 J.Which of the following statements is true?

A)20 J of work was done on the system
B)20 J of work was done by the system
C)the system received 20 J of energy as heat
D)the system lost 20 J of energy as heat
E)none of the above are true
Question
Ten grams of ice at -20°C is to be changed to steam at 130°C.The specific heat of both ice and steam is 0.5 cal/g . °C.The specific heat of water is 1.00 cal/g . K.The heat of fusion is 80 cal/g and the heat of vaporization is 540 cal/g.The entire process requires:

A)750 cal
B)1250 cal
C)6950 cal
D)7450 cal
E)7700 cal
Question
During an adiabatic process an object does 100 J of work and its temperature decreases by 5 K.During another process it does 25 J of work and its temperature decreases by 5 K.Its heat capacity for the second process is:

A)20 J/K
B)24 J/K
C)5 J/K
D)15 J/K
E)100 J/K
Question
Solid A, with mass M, is at its melting point TA.It is placed in thermal contact with solid B, with heat capacity CB and initially at temperature TB (TB > TA).The combination is thermally isolated.A has latent heat of fusion L and when it has melted has heat capacity CA.If A completely melts the final temperature of both A and B is:

A)(CATA + CBTB - ML)/(CA + CB)
B)(CATA - CBTB + ML)/(CA + CB)
C)(CATA - CBTB - ML)/(CA + CB)
D)(CATA + CBTB + ML)/(CA - CB)
Question
In a constant-volume process with a gas,

A)no heat is exchanged with the environment
B)the internal energy of the gas does not change
C)the gas does no work
D)the pressure of the gas does not change
E)the temperature of the gas does not change
Question
In the figure, what is the sign of the work done by the gas? <strong>In the figure, what is the sign of the work done by the gas? </strong> A)positive if the transition is A → B and negative if the transition is B → A B)negative if the transition is A → B and positive if the transition is B → A C)positive D)negative E)zero (no work is done) <div style=padding-top: 35px>

A)positive if the transition is A → B and negative if the transition is B → A
B)negative if the transition is A → B and positive if the transition is B → A
C)positive
D)negative
E)zero (no work is done)
Question
According to the first law of thermodynamics, applied to a gas, the increase in the internal energy during any process:

A)equals the heat input minus the work done on the gas
B)equals the heat input plus the work done on the gas
C)equals the work done on the gas minus the heat input
D)is independent of the heat input
E)is independent of the work done on the gas
Question
A gas:

A)does positive work as it expands.
B)does positive work as it contracts.
C)does no work if it expands adiabatically.
D)does negative work if it expands at constant pressure.
E)may do either positive or negative work as it expands, depending on the heat transfer.
Question
Fifty grams of ice at 0 ° C is placed in a thermos bottle containing one hundred grams of water at 6 ° C.How many grams of ice will melt? The heat of fusion of water is 333 kJ/kg and the specific heat of water is 4190 J/kg K.

A)7.5 g
B)2.0 g
C)8.3 g
D)17 g
E)50 g
Question
Pressure vs.volume graphs for a certain gas undergoing five different cyclic processes are shown below.During which cycle does the gas do the greatest positive work? <strong>Pressure vs.volume graphs for a certain gas undergoing five different cyclic processes are shown below.During which cycle does the gas do the greatest positive work? </strong> A)I B)II C)III D)IV E)V <div style=padding-top: 35px>

A)I
B)II
C)III
D)IV
E)V
Question
In a certain process a gas ends in its original thermodynamic state.Of the following, which is possible as the net result of the process?

A)It is adiabatic and the gas does 50 J of work
B)The gas does no work but absorbs 50 J of energy as heat
C)The gas does no work but rejects 50 J of energy as heat
D)The gas rejects 50 J of heat and does 50 J of work
E)The gas absorbs 50 J of energy as heat and does 50 J of work
Question
Of the following which might NOT be zero over one cycle of a cyclic process?

A)the change in the internal energy of the substance
B)the change in pressure of the substance
C)the work done by the substance
D)the change in the volume of the substance
E)the change in the temperature of the substance
Question
Of the following which might NOT be zero over one cycle of a cyclic process?

A)the work done by the substance minus the energy absorbed by the substance as heat
B)the change in the pressure of the substance
C)the energy absorbed by the substance as heat
D)the change in the volume of the substance
E)the change in the temperature of the substance
Question
In the first law of thermodynamics, the change in internal energy ΔEint:

A)is always positive
B)is always negative
C)cannot be zero
D)tends to increase if heat energy is transferred to the gas, and tends to decrease if the gas does work on its environment
E)tends to decrease if heat energy is transferred to the gas, and tends to increase if the gas does work on its environment
Question
In an adiabatic process:

A)the energy absorbed as heat equals the work done by the system on its environment
B)the energy absorbed as heat equals the work done by the environment on the system
C)the energy absorbed as heat equals the change in internal energy
D)the work done by the environment on the system equals the change in internal energy
E)the work done by the system on its environment equals the change in internal energy
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Deck 18: Temperature, Heat, and the First Law of Thermodynamics
1
Room temperature is about 20 degrees on the:

A)Kelvin scale
B)Celsius scale
C)Fahrenheit scale
D)absolute scale
E)C major scale
Celsius scale
2
There is a temperature at which the reading on the Kelvin scale is numerically:

A)equal to that on the Celsius scale
B)lower than that on the Celsius scale
C)equal to that on the Fahrenheit scale
D)less than zero
E)none of the above
equal to that on the Fahrenheit scale
3
A balloon is filled with cold air and placed in a warm room.It is NOT in thermal equilibrium with the air of the room until

A)it rises to the ceiling
B)it sinks to the floor
C)it stops expanding
D)it starts to contract
E)none of the above
it stops expanding
4
What is the limiting low temperature of a physical object?

A)there is no limiting low temperature
B)0 K
C)0° C
D)0° F
E)-100° C
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5
If two objects are in thermal equilibrium with each other

A)they cannot be moving
B)they cannot be undergoing an elastic collision
C)they cannot have different pressures
D)they cannot be at different temperatures
E)they cannot be falling in the Earth's gravitational field
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6
When a certain constant volume gas thermometer is in thermal contact with water at its triple point (273.16 K)the pressure is 6.30 x 104 Pa.For this thermometer a kelvin corresponds to a change in pressure of about:

A)4.34 x 102 Pa
B)2.31 x 102 Pa
C)1.72 x 103 Pa
D)2.31 x 103 Pa
E)1.72 x 107 Pa
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7
Constant-volume gas thermometers using different gases all indicate nearly the same temperature when in contact with the same object if:

A)the volumes are all extremely large
B)the volumes are all the same
C)the pressures are all extremely large
D)the pressures are the same
E)the particle concentrations are all extremely small
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8
When two gases separated by a diathermal wall are in thermal equilibrium with each other:

A)only their pressure must be the same
B)only their volumes must be the same
C)they must have the same number of particles
D)they must have the same pressure and the same volume
E)only their temperatures must be the same
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9
In constructing a thermometer it is NECESSARY to use a substance that:

A)expands with rising temperature
B)expands linearly with rising temperature
C)will not freeze
D)will not boil
E)undergoes some change when heated or cooled
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10
The zeroth law of thermodynamics allows us to define

A)work
B)pressure
C)temperature
D)thermal equilibrium
E)internal energy
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11
If the zeroth law of thermodynamics were not valid, which of the following could not be considered a property of an object?

A)Pressure
B)Center of mass energy
C)Internal energy
D)Momentum
E)Temperature
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12
A thermometer indicates 98.6°C.It may be:

A)outdoors on a cold day
B)in a comfortable room
C)in a cup of hot tea
D)in a normal person's mouth
E)in liquid air
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13
A constant-volume gas thermometer is used to measure the temperature of an object.When the thermometer is in contact with water at its triple point (273 K)the pressure in the thermometer is 8.50 x 104 Pa.When it is in contact with the object the pressure is 9.65 x 104 Pa.The temperature of the object is:

A)41.0 K
B)114 K
C)241 K
D)310 K
E)314 K
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14
The diagram shows four thermometers, labeled W, X, Y, and Z.The freezing and boiling points of water are indicated.Rank the thermometers according to the size of a degree on their scales, smallest to largest. <strong>The diagram shows four thermometers, labeled W, X, Y, and Z.The freezing and boiling points of water are indicated.Rank the thermometers according to the size of a degree on their scales, smallest to largest. </strong> A)W, X, Y, Z B)Y, W, X, Z C)Z, Y, W, X D)Z, X, W, Y E)W, Y, Z, X

A)W, X, Y, Z
B)Y, W, X, Z
C)Z, Y, W, X
D)Z, X, W, Y
E)W, Y, Z, X
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15
The "triple point" of a substance is that point for which the temperature and pressure are such that:

A)only solid and liquid are in equilibrium
B)only liquid and vapor are in equilibrium
C)only solid and vapor are in equilibrium
D)solid, liquid and vapor are all in equilibrium
E)the temperature, pressure and density are all numerically equal
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16
The international standard thermometer is kept:

A)near Washington, D.C.
B)near Paris, France
C)near the north pole
D)near Rome, Italy
E)nowhere (there is none)
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17
A Kelvin thermometer and a Fahrenheit thermometer both give the same reading for a certain sample.The corresponding Celsius temperature is:

A)574°C
B)232°C
C)301°C
D)614°C
E)276°C
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18
Fahrenheit and Kelvin scales agree numerically at a reading of:

A)-40°
B)0°
C)273°
D)301°
E)574°
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19
Suppose object C is in thermal equilibrium with object A and with object B.The zeroth law of thermodynamics states:

A)that C will always be in thermal equilibrium with both A and B
B)that C must transfer energy to both A and B
C)that A is in thermal equilibrium with B
D)that A cannot be in thermal equilibrium with B
E)nothing about the relationship between A and B
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20
Which one of the following statements is true?

A)temperatures differing by 25°on the Fahrenheit scale must differ by 45°on the Celsius scale
B)40 K corresponds to -40°C
C)temperatures which differ by 10° on the Celsius scale must differ by 18° on the Fahrenheit scale
D)water at 90°C is warmer than water at 202°F
E)0°F corresponds to -32°C
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21
Thin strips of iron and zinc are riveted together to form a bimetallic strip which bends when heated.The iron is on the inside of the bend because:

A)it has a higher coefficient of linear expansion
B)it has a lower coefficient of linear expansion
C)it has a higher specific heat
D)it has a lower specific heat
E)it conducts heat better
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22
An annular ring of aluminum is cut from an aluminum sheet as shown.When this ring is heated: <strong>An annular ring of aluminum is cut from an aluminum sheet as shown.When this ring is heated: </strong> A)the aluminum expands outward and the hole remains the same in size B)the hole decreases in diameter C)the area of the hole expands the same percent as any area of the aluminum D)the area of the hole expands a greater percent than any area of the aluminum E)linear expansion forces the shape of the hole to be slightly elliptical

A)the aluminum expands outward and the hole remains the same in size
B)the hole decreases in diameter
C)the area of the hole expands the same percent as any area of the aluminum
D)the area of the hole expands a greater percent than any area of the aluminum
E)linear expansion forces the shape of the hole to be slightly elliptical
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23
A heat of transformation of a substance is:

A)the energy absorbed as heat during a phase transformation
B)the energy per unit mass absorbed as heat during a phase transformation
C)the same as the heat capacity
D)the same as the specific heat
E)the same as the molar specific heat
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24
Metal pipes, used to carry water, sometimes burst in the winter because:

A)metal contracts more than water
B)outside of the pipe contracts more than the inside
C)metal becomes brittle when cold
D)ice expands when it melts
E)water expands when it freezes
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25
A gram of distilled water at 4°C:

A)will increase slightly in weight when heated to 6°C
B)will decrease slightly in weight when heated to 6°C
C)will increase slightly in volume when heated to 6°C
D)will decrease slightly in volume when heated to 6°C
E)will not change in either volume or weight
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26
The figure shows a rectangular brass plate at 0°C in which there is cut a rectangular hole of dimensions indicated.If the temperature of the plate is raised to 150°C: <strong>The figure shows a rectangular brass plate at 0°C in which there is cut a rectangular hole of dimensions indicated.If the temperature of the plate is raised to 150°C: </strong> A)x will increase and y will decrease B)both x and y will decrease C)x will decrease and y will increase D)both x and y will increase E)the changes in x and y depend on the dimension z

A)x will increase and y will decrease
B)both x and y will decrease
C)x will decrease and y will increase
D)both x and y will increase
E)the changes in x and y depend on the dimension z
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27
Possible units for the coefficient of volume expansion are:

A)mm/C°
B)mm3/C°
C)(C°)3
D)1/(C°)3
E)1/C°
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28
The Stanford linear accelerator contains hundreds of brass disks tightly fitted into a steel tube (see figure).The coefficient of linear expansion of the brass is 2.00 x 10-5 per C°.The system was assembled by cooling the disks in dry ice (-57°C)to enable them to just slide into the close-fitting tube.If the diameter of a disk is 80.00 mm at 43°C, what is its diameter in the dry ice? <strong>The Stanford linear accelerator contains hundreds of brass disks tightly fitted into a steel tube (see figure).The coefficient of linear expansion of the brass is 2.00 x 10<sup>-5</sup> per C°.The system was assembled by cooling the disks in dry ice (-57°C)to enable them to just slide into the close-fitting tube.If the diameter of a disk is 80.00 mm at 43°C, what is its diameter in the dry ice? </strong> A)78.400 mm B)79.998 mm C)80.160 mm D)79.840 mm E)none of these

A)78.400 mm
B)79.998 mm
C)80.160 mm
D)79.840 mm
E)none of these
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29
One degree is the same on the following temperature scales:

A)Fahrenheit and Celsius
B)Fahrenheit and Kelvin
C)Celsius and Kelvin
D)Fahrenheit and Absolute
E)none of the above
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30
The two metallic strips that constitute some thermostats must differ in:

A)length
B)thickness
C)mass
D)rate at which they conduct heat
E)coefficient of linear expansion
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31
A surveyor's 30-m steel tape is correct at 68°F.On a hot day the tape has expanded to 30.02 m.On that day, the tape indicates a distance of 15.52 m between two points.The true distance between these points is:

A)15.50 m
B)15.51 m
C)15.52 m
D)15.53 m
E)15.54 m
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32
The air temperature on a summer day might be about:

A)0°C
B)10°C
C)25°C
D)80°C
E)125°C
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33
The mercury column in an ordinary medical thermometer doubles in length when its temperature changes from 95°F to 105°F.Choose the correct statement:

A)the coefficient of volume expansion of mercury is 0.10 per F°
B)the coefficient of volume expansion of mercury is 0.30 per F°
C)the coefficient of volume expansion of mercury is (0.10/3)per F°
D)the vacuum above the column helps to "pull up" the mercury this large amount
E)none of the above is true
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34
The coefficient of expansion of a certain type of steel is 0.000012 per C°.The coefficient of volume expansion is:

A)(0.000012)3 (C°)-1
B)(4°/3)(0.000012)3 (C°)-1
C)3 ° 0.000012 (C°)-1
D)0.000012 (C°)-1
E)depends on the shape of the volume to which it will be applied
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35
The coefficient of linear expansion of steel is 11 x 10-6 per C°.A steel ball has a volume of exactly 100 cm3 at 0°C.When heated to 100°C, its volume becomes:

A)100.33 cm3
B)100.11 cm3
C)100.0011 cm3
D)100.0033 cm3
E)none of these
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36
It is more difficult to measure the coefficient of volume expansion of a liquid than that of a solid because:

A)no relation exists between linear and volume expansion coefficients
B)a liquid tends to evaporate
C)a liquid expands too much when heated
D)a liquid expands too little when heated
E)the containing vessel also expands
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37
The diagram shows four rectangular plates and their dimensions.All are made of the same material.The temperature now increases.Of these plates: <strong>The diagram shows four rectangular plates and their dimensions.All are made of the same material.The temperature now increases.Of these plates: </strong> A)the vertical dimension of plate 1 increases the most and the area of plate 1 increases the most B)the vertical dimension of plate 2 increases the most and the area of plate 4 increases the most C)the vertical dimension of plate 3 increases the most and the area of plate 1 increases the most D)the vertical dimension of plate 4 increases the most and the area of plate 3 increases the most E)the vertical dimension of plate 4 increases the most and the area of plate 4 increases the most

A)the vertical dimension of plate 1 increases the most and the area of plate 1 increases the most
B)the vertical dimension of plate 2 increases the most and the area of plate 4 increases the most
C)the vertical dimension of plate 3 increases the most and the area of plate 1 increases the most
D)the vertical dimension of plate 4 increases the most and the area of plate 3 increases the most
E)the vertical dimension of plate 4 increases the most and the area of plate 4 increases the most
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38
When the temperature of a copper penny is increased by 100 C°, its diameter increases by 0.17%.The area of one of its faces increases by:

A)0.17%
B)0.34%
C)0.51%
D)0.13%
E)0.27%
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39
The coefficient of linear expansion of iron is 10-5 per C°.The volume of an iron cube, 5 cm on edge, will increase by what amount if it is heated from 10°C to 60°C?

A)0.00375 cm3
B)0.1875 cm3
C)0.0225 cm3
D)0.0075 cm3
E)0.0625 cm3
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40
The thermal energy of an object is associated with:

A)its kinetic energy
B)its potential energy
C)its inertia
D)the random motions of its molecules
E)the collective motions of its molecules
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41
During the time that latent heat is involved in a change of state:

A)the temperature does not change
B)the substance always expands
C)a chemical reaction takes place
D)molecular activity remains constant
E)kinetic energy changes into potential energy
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42
A cube of aluminum has an edge length of 20 cm.Aluminum has a density 2.7 times that of water (1 g/cm3)and a specific heat 0.217 times that of water (1 cal/g°C ).When the internal energy of the cube increases by 47000 cal its temperature increases by:

A)5 C°
B)10 C°
C)20 C°
D)100 C°
E)200 C°
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43
The same energy Q enters five different substances as heat.Which of these has the greatest specific heat?

A)The temperature of 3 g of substance A increases by 10 K
B)The temperature of 4 g of substance B increases by 4 K
C)The temperature of 6 g of substance C increases by 15 K
D)The temperature of 8 g of substance D increases by 5 K
E)The temperature of 10 g of substance E increases by 10 K
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44
For constant volume processes the heat capacity of gas A is greater than the heat capacity of gas B.We conclude that when they both absorb the same energy as heat at constant volume:

A)the temperature of A increases more than the temperature of B
B)the temperature of B increases more than the temperature of A
C)the internal energy of A increases more than the internal energy of B
D)the internal energy of B increases more than the internal energy of A
E)A does more positive work than B
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45
The specific heat of a substance is:

A)the amount of heat energy to change the state of one gram of the substance
B)the amount of heat energy per unit mass emitted by oxidizing the substance
C)the amount of heat energy per unit mass to raise the substance from its freezing to its boiling point
D)the amount of heat energy per unit mass to raise the temperature of the substance by 1°C
E)the temperature of the object divided by its mass
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46
The three phases of matter are:

A)new, half, full
B)earth, air, fire
C)static, kinetic, potential
D)solid, liquid, gas
E)plasma, vapor, fluid
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47
The formation of ice from water is accompanied by:

A)absorption of energy as heat
B)temperature increase
C)decrease in volume
D)an evolution of heat
E)temperature decrease
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48
Two different samples have the same mass and temperature.Equal quantities of energy are absorbed as heat by each.Their final temperatures may be different because the samples have different:

A)thermal conductivities
B)coefficients of expansion
C)densities
D)volumes
E)heat capacities
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49
Take the mechanical equivalent of heat as 4 J/cal.A 10-gram bullet moving at 2000 m/s plunges into 1 kg of paraffin wax (specific heat 0.7 cal/g .°C).The wax was initially at 20°C.Assuming that all the bullet's energy heats the wax, its final temperature is:

A)20.14 °C
B)23.5 °C
C)20.006 °C
D)27.1 °C
E)48.6 °C
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50
An insulated container, filled with water, contains a thermometer and a paddle wheel.The paddle wheel can be rotated by an external source.This apparatus can be used to determine:

A)specific heat of water
B)relation between kinetic energy and absolute temperature
C)thermal conductivity of water
D)efficiency of changing work into heat
E)mechanical equivalent of heat
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51
The heat of fusion of water is 79.5 cal/g.This means 79.5 cal of energy are required to:

A)raise the temperature of 1 g of water by 1 K
B)turn 1 g of water to steam
C)raise the temperature of 1 g of ice by 1 K
D)melt 1 g of ice
E)increase the internal energy of 1 g of water by 1 J
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52
Object A, with heat capacity CA and initially at temperature TA, is placed in thermal contact with object B, with heat capacity CB and initially at temperature TB.The combination is thermally isolated.If the heat capacities are independent of the temperature and no phase changes occur, the final temperature of both objects is:

A)(CATA - CBTB)/(CA + CB)
B)(CATA + CBTB)/(CA + CB)
C)(CATA - CBTB)/(CA - CB)
D)<strong>Object A, with heat capacity C<sub>A</sub> and initially at temperature T<sub>A</sub>, is placed in thermal contact with object B, with heat capacity C<sub>B</sub> and initially at temperature T<sub>B</sub>.The combination is thermally isolated.If the heat capacities are independent of the temperature and no phase changes occur, the final temperature of both objects is:</strong> A)(C<sub>A</sub>T<sub>A</sub> - C<sub>B</sub>T<sub>B</sub>)/(C<sub>A</sub> + C<sub>B</sub>) B)(C<sub>A</sub>T<sub>A</sub> + C<sub>B</sub>T<sub>B</sub>)/(C<sub>A</sub> + C<sub>B</sub>) C)(C<sub>A</sub>T<sub>A</sub> - C<sub>B</sub>T<sub>B</sub>)/(C<sub>A</sub> - C<sub>B</sub>) D) E)
E)<strong>Object A, with heat capacity C<sub>A</sub> and initially at temperature T<sub>A</sub>, is placed in thermal contact with object B, with heat capacity C<sub>B</sub> and initially at temperature T<sub>B</sub>.The combination is thermally isolated.If the heat capacities are independent of the temperature and no phase changes occur, the final temperature of both objects is:</strong> A)(C<sub>A</sub>T<sub>A</sub> - C<sub>B</sub>T<sub>B</sub>)/(C<sub>A</sub> + C<sub>B</sub>) B)(C<sub>A</sub>T<sub>A</sub> + C<sub>B</sub>T<sub>B</sub>)/(C<sub>A</sub> + C<sub>B</sub>) C)(C<sub>A</sub>T<sub>A</sub> - C<sub>B</sub>T<sub>B</sub>)/(C<sub>A</sub> - C<sub>B</sub>) D) E)
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53
The heat capacity of object B is twice that of object A.Initially A is at 300 K and B is at 450 K.They are placed in thermal contact and the combination is isolated.The final temperature of both objects is:

A)300 K
B)350 K
C)400 K
D)450 K
E)600 K
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54
The energy given off by 300 grams of an alloy as it cools by 50°C raises the temperature of 300 grams of water from 30°C to 40°C.The specific heat of the alloy is:

A)5.0 cal/g °C
B)0.10 cal/g °C
C)0.15 cal/g °C
D)0.20 cal/g °C
E)0.50 cal/g °C
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55
Heat is:

A)energy transferred by virtue of a temperature difference
B)energy transferred by macroscopic work
C)energy content of an object
D)a temperature difference
E)a property objects have by virtue of their temperatures
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56
Heat has the same units as:

A)temperature
B)work
C)energy/time
D)heat capacity
E)energy/volume
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57
The heat capacity of an object is:

A)the amount of heat energy to raise its temperature by 1°C
B)the amount of heat energy to change its state without changing its temperature
C)the amount of heat energy per kilogram to raise its temperature by 1°C
D)the ratio of its specific heat to that of water
E)the change in its temperature caused by adding 1 J of heat
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58
The specific heat of lead is 0.030 cal/g. °C.300 g of lead shot at 100°C is mixed with 100 g of water at 70°C in an insulated container.The final temperature of the mixture is:

A)100°C
B)85.5°C
C)79.5°C
D)74.5°C
E)72.5°C
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59
A calorie is about:

A)0.24 J
B)8.3 J
C)250 J
D)4.2 J
E)4200 J
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60
A metal sample of mass M requires a power input P to just remain molten.When the heater is turned off, the metal solidifies in a time T.The specific latent heat of fusion of this metal is:

A)P/MT
B)T/PM
C)PM/T
D)PMT
E)PT/M
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61
In the first law of thermodynamics, the sign of the heat transfer Q:

A)is positive if the system gives energy as heat to the environment and negative if it absorbs energy as heat from the environment
B)is negative if the system gives energy as heat to the environment and positive if it absorbs energy as heat from the environment
C)is always positive
D)is always negative
E)depends on the sign of the work being done
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62
How many calories are required to change one gram of 0°C ice to 100°C steam? The latent heat of fusion is 80 cal/g and the latent heat of vaporization is 540 cal/g.The specific heat of water is 1.00 cal/g ° K.

A)100 cal
B)540 cal
C)620 cal
D)720 cal
E)900 cal
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63
A certain humidifier operates by raising water to the boiling point and then evaporating it.Every minute 30 g of water at 20°C are added to replace the 30 g that are evaporated.The heat of fusion of water is 333 kJ/kg, the heat of vaporization is 2256 kJ/kg, and the specific heat is 4190 J/kg How many joules of energy per minute does this humidifier require?

A)4800 J/min
B)18,600 J/min
C)24,600 J/min
D)77,700 J/min
E)10,100,000 J/min
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64
Steam at 100°C enters a radiator and leaves as water (at 80°C).Take the heat of vaporization to be 540 cal/g.Of the total energy given off as heat, what percent arises from the cooling of the water?

A)100%
B)54%
C)26%
D)14%
E)3.6%
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65
In the figure, a gas undergoes a transition from point A to point B along the path shown.How much work is done by the gas? <strong>In the figure, a gas undergoes a transition from point A to point B along the path shown.How much work is done by the gas? </strong> A)10 kJ B)13 kJ C)23 kJ D)-23 kJ E)0 kJ

A)10 kJ
B)13 kJ
C)23 kJ
D)-23 kJ
E)0 kJ
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66
A system undergoes an adiabatic process in which its internal energy increases by 20 J.Which of the following statements is true?

A)20 J of work was done on the system
B)20 J of work was done by the system
C)the system received 20 J of energy as heat
D)the system lost 20 J of energy as heat
E)none of the above are true
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67
Ten grams of ice at -20°C is to be changed to steam at 130°C.The specific heat of both ice and steam is 0.5 cal/g . °C.The specific heat of water is 1.00 cal/g . K.The heat of fusion is 80 cal/g and the heat of vaporization is 540 cal/g.The entire process requires:

A)750 cal
B)1250 cal
C)6950 cal
D)7450 cal
E)7700 cal
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68
During an adiabatic process an object does 100 J of work and its temperature decreases by 5 K.During another process it does 25 J of work and its temperature decreases by 5 K.Its heat capacity for the second process is:

A)20 J/K
B)24 J/K
C)5 J/K
D)15 J/K
E)100 J/K
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69
Solid A, with mass M, is at its melting point TA.It is placed in thermal contact with solid B, with heat capacity CB and initially at temperature TB (TB > TA).The combination is thermally isolated.A has latent heat of fusion L and when it has melted has heat capacity CA.If A completely melts the final temperature of both A and B is:

A)(CATA + CBTB - ML)/(CA + CB)
B)(CATA - CBTB + ML)/(CA + CB)
C)(CATA - CBTB - ML)/(CA + CB)
D)(CATA + CBTB + ML)/(CA - CB)
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70
In a constant-volume process with a gas,

A)no heat is exchanged with the environment
B)the internal energy of the gas does not change
C)the gas does no work
D)the pressure of the gas does not change
E)the temperature of the gas does not change
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71
In the figure, what is the sign of the work done by the gas? <strong>In the figure, what is the sign of the work done by the gas? </strong> A)positive if the transition is A → B and negative if the transition is B → A B)negative if the transition is A → B and positive if the transition is B → A C)positive D)negative E)zero (no work is done)

A)positive if the transition is A → B and negative if the transition is B → A
B)negative if the transition is A → B and positive if the transition is B → A
C)positive
D)negative
E)zero (no work is done)
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72
According to the first law of thermodynamics, applied to a gas, the increase in the internal energy during any process:

A)equals the heat input minus the work done on the gas
B)equals the heat input plus the work done on the gas
C)equals the work done on the gas minus the heat input
D)is independent of the heat input
E)is independent of the work done on the gas
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73
A gas:

A)does positive work as it expands.
B)does positive work as it contracts.
C)does no work if it expands adiabatically.
D)does negative work if it expands at constant pressure.
E)may do either positive or negative work as it expands, depending on the heat transfer.
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74
Fifty grams of ice at 0 ° C is placed in a thermos bottle containing one hundred grams of water at 6 ° C.How many grams of ice will melt? The heat of fusion of water is 333 kJ/kg and the specific heat of water is 4190 J/kg K.

A)7.5 g
B)2.0 g
C)8.3 g
D)17 g
E)50 g
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75
Pressure vs.volume graphs for a certain gas undergoing five different cyclic processes are shown below.During which cycle does the gas do the greatest positive work? <strong>Pressure vs.volume graphs for a certain gas undergoing five different cyclic processes are shown below.During which cycle does the gas do the greatest positive work? </strong> A)I B)II C)III D)IV E)V

A)I
B)II
C)III
D)IV
E)V
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76
In a certain process a gas ends in its original thermodynamic state.Of the following, which is possible as the net result of the process?

A)It is adiabatic and the gas does 50 J of work
B)The gas does no work but absorbs 50 J of energy as heat
C)The gas does no work but rejects 50 J of energy as heat
D)The gas rejects 50 J of heat and does 50 J of work
E)The gas absorbs 50 J of energy as heat and does 50 J of work
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77
Of the following which might NOT be zero over one cycle of a cyclic process?

A)the change in the internal energy of the substance
B)the change in pressure of the substance
C)the work done by the substance
D)the change in the volume of the substance
E)the change in the temperature of the substance
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78
Of the following which might NOT be zero over one cycle of a cyclic process?

A)the work done by the substance minus the energy absorbed by the substance as heat
B)the change in the pressure of the substance
C)the energy absorbed by the substance as heat
D)the change in the volume of the substance
E)the change in the temperature of the substance
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79
In the first law of thermodynamics, the change in internal energy ΔEint:

A)is always positive
B)is always negative
C)cannot be zero
D)tends to increase if heat energy is transferred to the gas, and tends to decrease if the gas does work on its environment
E)tends to decrease if heat energy is transferred to the gas, and tends to increase if the gas does work on its environment
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80
In an adiabatic process:

A)the energy absorbed as heat equals the work done by the system on its environment
B)the energy absorbed as heat equals the work done by the environment on the system
C)the energy absorbed as heat equals the change in internal energy
D)the work done by the environment on the system equals the change in internal energy
E)the work done by the system on its environment equals the change in internal energy
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