MCQ Questions for Class 11 Engineering Physics Thermal Properties Of Matter Quiz 11

A Centigrade and Fahrenheit thermometers are dipped in boiling water. The water temperature is lowered unit the Fahrenheit thermometre registers a temperature of $$140^o$$. The fall of temperature as registered by the Centigrade thermometre is :

0%
$$80^o$$C
0%
$$40^o$$C
0%
$$50^o$$C
0%
$$90^o$$C

A sample of gas expands from volume $$V _ { 1 }$$ to $$V _ { 2 } .$$ The amount of work done by the gas is greatest when the expansion is

0%
adiabatic
0%
isobaric
0%
isothermal
0%
Equal in all above cases

End $$A$$ of a copper rod is. maintained in steam chamber and other end is maintained at $$0^{\circ}C$$. Assume $$x = 0$$ at $$A$$. The $$T - x$$ graph for the rod in steady state is

0%
0%
0%
0%
None of these

Heat current is maximum in which of the following (rods are of identical dimension)

0%
Copper
0%
Copper steel
0%
Steel Copper
0%
Steel

An ideal gas is initially at $$ P_{l}, V_{1} $$ is expanded to $$ P_{2}, V_{2} $$ and then compressed adiabatically to the same volume $$ V_{l} $$ and pressure $$ P_{3} $$.If W is the net work done by the gas in complete process which of the

0%
$$
W>0 ; P_{3}>P_{1}
$$
0%
$$
W<0 ; P_{3}>P_{1}
$$
0%
$$W<0;{P_3}$$
0%
$$P_{2}>P_{1}$$;$$W<0$$

A small quantity, mass m, of water at a temperature $$\theta$$ in ($$^oC$$) is poured on to a large mass M of ice which is at its melting point. If c is the specific heat capacity of water and L the latent heat of fusion of ice, then the mass of ice melted is given by :

0%
$$\dfrac{ML}{mc\theta}$$
0%
$$\dfrac{mc\theta}{ML}$$
0%
$$\dfrac{Mc\theta}{L}$$
0%
$$\dfrac{mc\theta}{L}$$

A fixed mass of gas is taken through a process $$A\rightarrow B\rightarrow C\rightarrow A$$. Here $$A\rightarrow B$$ is isobaric $$B\rightarrow C$$ is adiabatic and $$C\rightarrow A$$ is isothermal

The pressure at $$C$$ is given by $$(\gamma=1.5)$$

0%
$$\frac{10^5}{64}\,N/m^2$$
0%
$$\frac{10^5}{32}\,N/m^2$$
0%
zero
0%
$${10}^5\,N/m^2$$

If $$C_p$$ and $$C_v$$ are molar specific heats of an ideal gas at constant pressure and volume respectively. If $$\gamma$$ is ratio of two specific heats and $$R$$ is universal gas constant then $$C_p$$ is equal to?

0%
$$\dfrac{R\gamma}{\gamma -1}$$
0%
$$\gamma R$$
0%
$$\dfrac{1+\gamma}{1-\gamma}$$
0%
$$\dfrac{R}{\gamma -1}$$

$$2$$ mole ideal He gas and $$3$$ mole ideal $$H_2$$ gas at constant volume find out $$C_v$$ of mixture

0%
$$\dfrac{21 R}{10}$$
0%
$$\dfrac{11 R}{10}$$
0%
$$\dfrac{21 R}{5}$$
0%
$$\dfrac{11 R}{5}$$

What happens in the process of thermionic emission?

0%
Complete molecules are emitted from the surface of a hot liquid
0%
Single atoms are emitted from the surface of a hot liquid
0%
Electrons are emitted from the surface of a hot metal
0%
Protons are emitted from the surface of a hot metal

Two plastic cups are placed one inside the other. A small spacer keeps the two cups separated. How water is poured into the inner cup and a lid is put on top, as shown.
Which statement is correct?

0%
The bench is heated by conduction from the bottom of the outer cups
0%
The lid reduced the energy gain by convection
0%
There is no thermal conduction through the sides of either cup
0%
Thermal radiation is prevented by the small air gap

r.m.s. speed of ideal gas at $$127^oC$$ is $$200m/s$$, the r.m.s. speed of same ideal gas at temperature $$227^oC$$ is:

0%
$$100\sqrt{5}$$
0%
$$200\sqrt{5}$$
0%
$$100\sqrt{15}$$
0%
$$100\sqrt{10}$$

Two moles of an ideal gas with $$\dfrac{C_P}{C_V}=\dfrac{5}{3}$$ are mixed with $$3$$ moles of another ideal gas with $$\dfrac{C_P}{C_V}=\dfrac{4}{3}$$. The value of $$\dfrac{C_P}{C_V}$$ for the mixture is :

0%
$$1.47$$
0%
$$1.45$$
0%
$$1.42$$
0%
$$1.50$$

Pressure of an ideal gas is increased by keeping temperature constant. The kinetic energy of molecules.

0%
Decreases
0%
Increases
0%
Remains same
0%
Increases or decreases depending on the nature of gas

In which of the following phenomena do heat waves travel along a straight line with the speed of light ?

0%
Thermal conduction
0%
Thermal convection
0%
Thermal radiation
0%
Both, thermal conduction and radiation

Water does not freeze at the bottom of the lakes in winter because :

0%
ice is a good conductor of hear
0%
ice reflects heat and light
0%
of anomalous expansion of water between $$4^oC$$ to $$0^oC$$
0%
nothing can be said

Let $$C_v$$ and $$C_p$$ denote the molar heat capacities of an ideal gas at constant volume and constant pressure respectively.Which of the following is a universal constant?

0%
$$ \dfrac{C_p}{C_v} $$
0%
$$ C_p C_v $$
0%
$$ C_p - C_v $$
0%
$$ C_p + C_v $$

A steel scale gives correct reading at $$t_1 ^oC$$. When temperature changes to $$t_2 ^oC$$, then :

0%
if $$t_2> t_1$$, reading is greater that true value
0%
if $$t_2> t_1$$, reading is lesser that true value
0%
the reading is always equal to true value
0%
the reading is always less than true value

A physicist says "a body contains $$10\ joule$$ heat" but a physics learner says "this statement is correct only when the body is in liquid state". Mark correct option or options :

0%
physicist statement is correct
0%
physics learner's statement is correct
0%
both statements are correct
0%
both statements are wrong

A metal rod of length $$L$$ and cross-sectional area $$A$$ converts a large tank of water at temperature $$\theta_{0}$$ and a small vessel containing mass $$m$$ of water at initial temperature of $$\theta_{1}(< \theta_{0})$$. If the thermal conductivity of rod is $$K$$, then the time taken for the temperature of water in smaller vessel to become $$\theta_{2}(\theta_{1} < \theta_{2} < \theta_{0})$$ is:
(Given : Specific heat capacity of water is $$s$$ and all other heat capacities are neglected).

0%
$$T = \dfrac {ms}{KA} \log \dfrac {(\theta_{0} - \theta_{1})}{(\theta_{0} - \theta_{2})}$$
0%
$$T = \dfrac {Lms}{KA}\log \left (\dfrac {\theta_{0} - \theta_{1}}{\theta_{0} - \theta_{2}}\right )$$
0%
$$T = \dfrac {2mLs}{KA} \left (\log \dfrac {(\theta_{0} - \theta_{1})}{\theta_{0} - \theta_{2}}\right )$$
0%
None of the above

The quantity $$\dfrac{PV}{kT}$$ represents

0%
mass of the gas
0%
kinetic energy of the gas
0%
number of moles of the gas
0%
number of molecules in the gas

The temperature of a body is increased from $$27^oC$$ to $$127^oC$$. The radiation emitted by it increases by a factor of :

0%
$$(256/81)$$
0%
$$(15/9)$$
0%
$$(4/3)$$
0%
$$(12/27)$$

Three rods of identical cross-sectional area and made from the same material form the sides of an equilateral triangle. The point $$A$$ and $$B$$ are maintained at $$T$$ and $$2T$$ respectively. In steady state temperature of point $$C$$ is $$T_c$$. ( Assuming only heat conduction takes place.) The value of $$T_c$$ is

0%
$$T/2$$
0%
$$T$$
0%
$$\dfrac{2}{3}T$$
0%
$$\dfrac{3}{2}T$$

The net rate of heat loss by a hot body depends upon:

0%
temperature of body
0%
temperature of surroundings
0%
material of body
0%
nature of the surface

Three rods of the same cross-sectional and made of the same material from the sides of a triangle $$ABC$$ as shown. The points $$A$$ and $$B$$ are maintained at temperature $$T$$ and $$\sqrt 2 T$$ respectively in the steady state. Assuming that only heat conduction takes plane, the temperature at point $$C$$ is:

0%
$$\left[\dfrac {2\sqrt 2 +\sqrt 3}{2+\sqrt 3}\right]T$$
0%
$$\left[\dfrac {3 }{1+\sqrt 2}\right]T$$
0%
$$\left[\dfrac {2}{\sqrt 3}\right]T$$
0%
$$\left[\dfrac {\sqrt 5}{2}\right]T$$

Three identical rods of same material are joined to from an equilateral triangle. The temperature of end $$A$$ and $$B$$ is maintained constant as $$\sqrt {3}T$$ and $$T$$. The ratio of $$T_C / T_B$$ will be: (Assuming no loss of heat from surfaces)

0%
$$\dfrac {1+\sqrt 3}{2}$$
0%
$$\dfrac {1+\sqrt 3}{2}$$
0%
$$\dfrac {1+\sqrt 2}{2}$$
0%
$$\dfrac {1-\sqrt 2}{2}$$

The temperature of end $$A$$ of a rod us maintained at $$0^oC$$. The temperature of end $$B$$ is changing slowly such that the rod may be considered in steady state at all time and is given by $$T_B $$ = $$\alpha T$$ ; where $$\alpha$$ is positive constant and $$t$$ is time. Temperature of point $$C$$, at a distance $$x$$ from end $$A$$, at any time is ____.

0%
$$\dfrac{\alpha xt}{L}$$
0%
$$\dfrac{\alpha xt^2}{2L}$$
0%
$$\dfrac{\alpha x^2t}{2L}$$
0%
$$\dfrac{\alpha (L-x)}{L}t$$

If for hydrogen $$ C_{p}-C_{v}=m $$ and for nitrogen $$ C_{p}-C_{v}= $$ $$ n, $$ where $$ C_{p} $$ and $$ C_{v} $$ refer to specific heats per unit mass respectively at constant pressure and constant volume, the relation between $$ m $$ and $$ n $$ is (molecular weight of hydrogen $$ =2 $$ and molecular weight of nitrogen $$ =14 $$ )

0%
$$n=14m$$
0%
$$n=7m$$
0%
$$m=7n$$
0%
$$m=14n$$

An ideal gas undergoes the cyclic process shown in a graph below

0%
$$T_1 = T_2$$
0%
$$ T_1 > T_2$$
0%
$$V_aV_c = V_bV_d$$
0%
$$V_aV_b = V_cV_d$$

An immersion heater, in an insulated vessel of negligible heat capacity, brings 100 g of water to the boiling point from $$16^{0}C$$ in 7 min. Then

The heat of vaporization of alcohol is

0%
$$854 J/kg$$
0%
$$ 854 \times 10^{3} J/kg$$
0%
$$204 cal/g$$
0%
$$204 cal/kg$$

Consider two rods of same length and different specific heats ($$s_1$$ and $$s_2$$), conductivities $$K_1$$ and $$K_2$$ and areas of cross section ($$A_1$$ and $$A_2$$) and both having temperature $$T_1$$ and $$T_2$$ at their ends. If the rate of heat loss due to conduction is equal, then

0%
$$K_1 A_1$$ = $$K_2 A_2$$
0%
$$K_2 A_1$$ = $$K_1 A_2$$
0%
$$\dfrac{K_1 A_1}{s_1}$$ = $$\dfrac{K_2 A_2}{s_2}$$
0%
$$\dfrac{K_2 A_1}{s_2}$$ = $$\dfrac{K_1 A_2}{s_1}$$

At temperature TK, the pressure of 4.0 g argon in a bulb is P. the bulb is put in a bath having temperature higher by 50 K than the first one. 0.8 g of argon gas had to be removed to maintained original pressure .The temperature T is equal to :

0%
510 K
0%
200 K
0%
100 K
0%
73 K

Heat is added to an ideal gas and the gas expands. In such a process the temperature:

0%
must always increase
0%
will remain the same if the work done equals the hear added
0%
must always decrease
0%
will remain the same if change in internal energy equals the heat added

Three rods of identical cross-sectional area and made from the same metal form the sides of an isosceles triangle ABC right angles at B. The points A and B are maintained at temperatures T and $$\sqrt{2}T$$, respectively, in the steady state. Assuming that only heat conduction takes place, temperature of point C

0%
$$ \frac {3T} {\sqrt{2} + 1}$$
0%
$$ \frac {T} {\sqrt{2} + 1}$$
0%
$$ \frac {3T} {3(\sqrt{2} - 1)}$$
0%
$$ \frac {T} {\sqrt{2} - 1}$$

Write 'true' or 'false' for each statement:

Medium is necessary for the transfer of heat by radiation.

0%
True
0%
False

A marble tile would feel cold as compared to a wooden tile on a winter morning, because the marble tile

0%
is a better conductor of heat than the wooden tile.
0%
is polished while wooden tile is not polished.
0%
Reflects more heat than wooden tile.
0%
is a poor conductor of heat than the wooden tile.

Write 'true' or 'false' for each statement:

On touching a lump of ice, we feel cold because some heat passes from our body to the ice.

0%
True
0%
False

Choose the correct alternative:

In the process of convection, heat travels

0%
sideways
0%
downwards
0%
upwards
0%
in all direction

$$S.I.$$ unit of temperature is:

0%
calorie
0%
Joule
0%
Celsius
0%
Kelvin

Absolute scale of temperature is reproduced in the laboratory by making use of a

0%
Radiation pyrometer
0%
Platinum resistance thermometer
0%
Constant volume helium gas thermometer
0%
Constant pressure ideal gas thermometer

Wires A and B have identical lengths and have circular cross-sections. The radius of A is twice the radius of B i.e. $$r_A=2r_B$$. For a given temperature difference between the two ends, both wires conduct heat at the same rate. The relation between the thermal conductivities is given by :

0%
$$K_A =4K_B$$
0%
$$K_A =2K_B$$
0%
$$K_A =K_B/2$$
0%
$$K_A =K_B/4$$

The length of the two rods made up of the same metal and having the same area of the cross-section are $$0.6$$ m and $$0.8$$ m respectively. The temperature between the ends of the first rod is $$90 ^\circ C$$ and $$60 ^\circ C$$ and that for the other rod is $$150$$ and $$110 ^\circ C$$. For which rod the rate of conduction will be greater

0%
First
0%
Second
0%
Same for both
0%
None of the above

Calories is the unit of

0%
Heat
0%
Work
0%
Temperature
0%
Food

In cold countries, water pipes sometimes burst, because

0%
Pipe contracts
0%
Water expands on freezing
0%
When water freezes, pressure increases
0%
When water freezes, it takes heat from pipes

Absolute zero (0 K) is that temperature at which

0%
Matter ceases to exist
0%
Ice melts and water freezes
0%
Volume and pressure of a gas becomes zero
0%
None of these

Calorimeters are made of which of the following

0%
Glass
0%
Metal
0%
Wood
0%
Either (a) or (c)

Water is cooled from $$4^oC$$ to $$0^oC$$ it:

0%
Contracts
0%
Expands
0%
First contrast, then expands
0%
First expands then contrast

The velocity of heat radiation in vacuum is

0%
Equal to that of light
0%
Less than that of light
0%
Greater than that of light
0%
Equal to that of sound

The coefficients of thermal conductivity of copper, mercury, and glass are respectively K, K, and K such that $$K > K > K$$. If the same quantity of heat is to flow per second per unit area of each and corresponding temperature gradients are X, X, and X, then

0%
$$X_c=X_m=X_g$$
0%
$$X_c>X_m>X_g$$
0%
$$X_c < X_m < X_g$$
0%
$$X_m < X_c < X_g$$

Four rods of identical cross-sectional area and made from the same the metal form the sides of square. The temperature of two diagonally opposite points and $$T$$ and $$2T$$ respective in the steady-state. Assuming that only heat conduction takes place, what will be the temperature difference between the other two points

0%
$$\dfrac{\sqrt{2}+1}{2}T$$
0%
$$\dfrac{2}{\sqrt{2}+1}T$$
0%
$$0$$
0%
None of these

CBSE Questions for Class 11 Engineering Physics Thermal Properties Of Matter Quiz 11 - MCQExams.com

0:0:1

Practice Class 11 Engineering Physics Quiz Questions and Answers

CBSE Questions for Class 11 Engineering Physics Thermal Properties Of Matter Quiz 11 - MCQExams.com

0:0:1

Practice Class 11 Engineering Physics Quiz Questions and Answers

Support mcqexams.com by disabling your adblocker.