1 Marks Question - Physics STD 11 Science Questions - Vidyadip

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Question 11 Mark

Answer the following : The triple-point of water is a standard fixed point in modern thermometry. Why? What is wrong in taking the melting point of ice and the boiling point of water as standard fixed points (as was originally done in the Celsius scale)?

Answer

Melting and boiling points of water aren’t considered as the standard fixed points because they vary with change in pressure, the temperature of triple point of water is unique and it does not vary with pressure.

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Question 21 Mark

Answer the following : There were two fixed points in the original Celsius scale as mentioned above which were assigned the number 0°C and 100°C respectively. On the absolute scale, one of the fixed points is the triple-point of water, which on the Kelvin absolute scale is assigned the number 273.16 K. What is the other fixed point on this (Kelvin) scale?

Answer

On the Kelvin’s scale there is only a lower fixed point which is 273.16K, the upper fixed point is not there.

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Question 31 Mark

Answer the following: The absolute temperature (Kelvin scale) T is related to the temperature tc on the Celsius scale by tc = T – 273.15.

Answer

The relation is such because 273.15K on the Kelvin’s scale corresponds to the melting point of ice while 273.16K is the triple point of water.

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Question 41 Mark

Answer the following questions based on the P-T phase diagram of carbon dioxide
a. At what temperature and pressure can the solid, liquid and vapour phases of $\mathrm{CO}_2$ co-exist in equilibrium ?
b. What is the effect of decrease of pressure on the fusion and boiling point of $\mathrm{CO}_2$ ?
c. What are the critical temperature and pressure for $\mathrm{CO}_2$ ? What is their significance?
d. Is $\mathrm{CO}_2$ solid, liquid or gas at (a) $-70^{\circ} \mathrm{C}$ under 1 atm , (b) $-60^{\circ} \mathrm{C}$ under $10 \mathrm{~atm}, 15^{\circ} \mathrm{C}$ under 56 atm ?

Answer

The P–T phase diagram for $CO_2$ is shown in the following figure:

The solid, liquid and vapour phase of carbon dioxide exist in equilibrium at the triple point, i.e., temprature $=-$ $56.6^{\circ} \mathrm{C}$ and pressure $=5.11 \mathrm{~atm}$. With the decrease in pressure, both the fusion and boiling point of carbon dioxide will decrease. For carbon dioxide, the critical temperature is $31.1^{\circ} \mathrm{C}$ and critical pressure is 73.0 atm . If the temprature of carbon dioxide is more than $31.1^{\circ} \mathrm{C}$, it can not be liquified, however large pressure we may apply. Carbon dioxide will be (a) a vapour, at $=70^{\circ} \mathrm{C}$ under 1atm. (b) a solid, at $-6^{\circ} \mathrm{C}$ under 10 atm (c) a liquid, at $15^{\circ} \mathrm{C}$ under 56 atm .

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Question 51 Mark

Answer the following : The triple-point of water is a standard fixed point in modern thermometry. Why? What is wrong in taking the melting point of ice and the boiling point of water as standard fixed points (as was originally done in the Celsius scale)?

Answer

Melting and boiling points of water aren’t considered as the standard fixed points because they vary with change in pressure, the temperature of triple point of water is unique and it does not vary with pressure.

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Question 61 Mark

Express 60°C in °F.

Answer

$\frac{9}{5}\times60+32=140^\circ\text{F}.$

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Question 71 Mark

Solar pond is a device for collecting solar heat. The pond is about one metre deep, filled with saturated salt solution and protected from air current and other disturbances. When exposed to sun, the temperature at the bottom can go as high as 80°C or more. Why is this possible?

Answer

It is due to the fact that the thermal conductivity of salt is very high.

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Question 81 Mark

Why birds are often seen to swell their feathers in winter?

Answer

When the birds swell their feathers, they are able to enclose air in the feathers. Air, being a poor conductor of heat, so it prevents the loss of heat from the bodies of the birds to the surroundings and as such they do not feel cold in winter.

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Question 91 Mark

A black metal foil is warmed by radiation from a sphere at temperature T at a distance d. If the power received is P, find the power received when both the temperature and distance are doubled.

Answer

Power radiated $\propto\frac{\text{T}^4}{\text{d}^2}$ $\frac{\text{P}'}{\text{P}}=\frac{2^4\text{T}^4}{2^2\text{d}^2}$ $\text{P}'=\text{P}.$

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Question 101 Mark

Can we boil water inside in the earth satellite?

Answer

No, the process of transfer of heat by convection is based on the fact that a liquid becomes lighter on becoming hot and rise up. In condition of weightlessness, this is not possible. So, transfer of heat by convection is not possible in the earth satellite.

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Question 111 Mark

Tea gets cooled when sugar is added to it. Why?

Answer

The sugar absorbs heat energy from the tea and hence temperature of the tea decreases.

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Question 121 Mark

Answer the following : There were two fixed points in the original Celsius scale as mentioned above which were assigned the number 0°C and 100°C respectively. On the absolute scale, one of the fixed points is the triple-point of water, which on the Kelvin absolute scale is assigned the number 273.16 K. What is the other fixed point on this (Kelvin) scale?

Answer

On the Kelvin’s scale there is only a lower fixed point which is 273.16K, the upper fixed point is not there.

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Question 131 Mark

Answer the following: The absolute temperature (Kelvin scale) T is related to the temperature tc on the Celsius scale by tc = T – 273.15.

Answer

The relation is such because 273.15K on the Kelvin’s scale corresponds to the melting point of ice while 273.16K is the triple point of water.

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Question 141 Mark

Each side of a cube increases by 0.01% on heating. How much is the area of its faces and volume increased?

Answer

The area of the faces will increased by 0.02% and the volume by 0.03%.

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Question 151 Mark

What is the condition for the difference between the length of a certain brass rod and that of a steel rod to be constant at all temperature?

Answer

The condition is that the lengths of the rods are inversely proportional to the coefficients of linear expansion of the materials of the rods.

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Question 161 Mark

Does the boiling point of water change with pressure?

Answer

The boiling point of water increases with the increase in pressure (and vice-versa).

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Question 171 Mark

Arrange Cu, Al and Ag in the order of increasing thermal conductivity?

Answer

Al, Cu, Ag.

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Question 181 Mark

Show graphically the temperature variation with time associated with a cooling hot body.

Answer

The rate of loss reduces as the temperature difference with surrounding is reduced.

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Question 191 Mark

Black body radiation is white. Comment.

Answer

The statement is true. A black body absorbs radiations of all wavelengths. When heated to a suitable temperature, it emits radiations of all wavelengths. Hence, a black body radiation is white.

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Question 201 Mark

Give the relation between celsius, Fahrenheit and reaumur scale temperature.

Answer

$\frac{\text{C}-0}{100-0}=\frac{\text{F}-32}{212-32}\approx\frac{\text{R}-0}{8-0}$

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Question 211 Mark

What is the shift in the colour of light when the temperature increases?

Answer

As temperature increases, the wavelength decreases and frequency increases.

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Question 221 Mark

How does density of a solid change as it is heated?

Answer

Density of a solid decreases as it is heated i.e., as its temperature rises) as per following. $\rho'=\rho(1-\gamma\Delta\text{T}),$ where $\rho=$ density of given solid at temperature T and $\rho'=$ density given solid at temperature $(\text{T}+\Delta\text{T}).$

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Question 231 Mark

What is the principle of calorimetry?

Answer

Heat lost by hot body = Heat gained by cold body.

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Question 241 Mark

Why do two layers of a cloth of equal thickness provide warmer covering than a single layer of cloth of double the thickness?

Answer

The air enclosed between two layers of cloths prevents the transmission of heat from our body to outside.

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Question 251 Mark

Name the three modes of transmission of heat.

Answer

Conduction, convection and radiation.

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Question 261 Mark

Which substance has maximum value of specific heat?

Answer

Out of solids and liquids water has maximum value of specific heat $\left(4186 \mathrm{~J} / \mathrm{kg}^{-1} \mathrm{~K}^{-1}\right)$. In gases, hydrogen gas has maximum value of specific heat, which is even more than that of water.

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Question 271 Mark

What is the relation between the coefficient of linear expansion and coefficient of volume expansion?

Answer

Coefficient of volume expansion = 3 × coefficient of linear expansion.

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Question 281 Mark

Is the value of temperature coefficient of expansion always positive?

Answer

Generally, the value of temperature coefficient of expansion is positive. But in certain cases e.g., water between 0°C and 4°C, the expansion coefficient is negative.

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Question 291 Mark

Is it possible to convert water into vapour form without increasing its temperature, if temperature and pressure of water are 30°C and 1 atm respectively?

Answer

Yes, water at 30°C can be converted into vapour by reducing its pressure until it equals to the vapour pressure of water at 30°C.

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Question 301 Mark

Why two layers of cloth of equal thickness provide warmer covering than a single layer of cloth of double thickness?

Answer

This is because the air enclosed between the two layers of cloth acts as a good heat insulator.

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Question 311 Mark

Why does a piece of red glass when heated and taken out glow with green light?

Answer

At low temperature, red glass absorbs green colour strongly. Therefore, at higher temperatures, it emits green colour strongly and appears green.

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Question 321 Mark

Why do birds swell their feathers in winter?

Answer

They swell their feathers and maintain a column of air, which is an insulator, to avoid loss of heat from body to the surrounding (cold).

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Question 331 Mark

Birds swell their feathers in winter. Why?

Answer

Birds swell their feathers and maintain a column of air, which is an insulator, to avoid the loss of heat from the body to the surrounding (cold).

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Question 341 Mark

A slab consists of two parallel layers of two different materials of the same thickness, having thermal conductivities $\text{K}_1$ and $\text{K}_2$. What is the equivalent thermal conductivity of the slab?

Answer

$\frac{2\text{K}_1\text{K}_2}{\text{K}_1+\text{K}_2}$

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Question 351 Mark

If all the objects radiate electromagnetic energy, why do not the objects around us in everyday life become colder and colder?

Answer

According to the Principal of heat exchange, all the objects (above 0K) not only radiate electromagnetic energy but also absorb at the same rate from their surroundings. Thus, they do not become colder.

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Question 361 Mark

Place a safety pin on a sheet of paper. Hold the sheet over a burning candle, until the paper becomes yellow and charr. On removing the pin, its white trace is observed on the paper. Why?

Answer

The safety pin is made of steel which is good conductor of heat. So, the safety pin takes heat from the paper under it and transfer it away to the surroundings. The portion of the paper under the safety pin remains comparatively colder than the remaining part.

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Question 371 Mark

Why is it cooler at the top of mountains?

Answer

Atmosphere is less dense at higher altitudes. So, the radiated energy from surface of earth escapes at higher altitudes. So, it is comparatively cooler at high mountains.

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Question 381 Mark

Why the temperature above 1200°C cannot be measured accurately by a platinum resistance thermometer?

Answer

This is because platinum begins to evaporate above 1200°C.

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Question 391 Mark

The temperature gradient in a rod 0.5m long is 80°C per metre. The temperature of the hotter end is 30°C. What is the temperature of the colder end?

Answer

30 - 0.5 × 80 = -10°C.

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Question 401 Mark

Why an ice box is constructed with a double wall?

Answer

An ice box is made of double wall and the space in between the walls is filled with some non-conducting material to provide heat insulation, so that the loss of heat can be minimised.

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Question 411 Mark

A wooden charcoal and a metal piece of the same dimension are heated in the same oven to the same temperature and then removed in the dark. Which one would shine more and why?

Answer

Charcoal will shine more as it is a good absorber and good emitter, so it will emit more energy.

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Question 421 Mark

Why should a thermometer bulb have a small heat capacity?

Answer

The thermometer bulb having small heat capacity will absorb less heat from the body whose temperature is to be measured. Hence, the temperature of that body will practically remain unchanged.

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Question 431 Mark

Name three factors affecting the energy radiated by a hot body.

Answer

Nature of surface $($emissivity$)$.
Temperature.
Surface area.

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Question 441 Mark

When we step barefoot into an office with a marble floor, we feel cold. Why?

Answer

This is because marble is a better conductor of heat than concrete. When we walk barefooted on a marble floor, heat flows our body through the feet and we feel cold.

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Question 451 Mark

Why is a gap left between the ends of two railway lines in a railway track?

Answer

It is done to accommodate the linear expansion of railway line during summer. If the gap is not left in summer, the lines will bend causing a threat of derailment.

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Question 461 Mark

“All black surfaces are not good radiators.” Comment.

Answer

The statement is wrong. All black bodies or surfaces are good absorbers and radiators.

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Question 471 Mark

Two bodies at different temperatures $\text{T}_1$ and $\text{T}_2$, if brought in thermal contact do not necessarily settle at the mean temperature $\frac{(\text{T}_1+\text{T}_2)}{2}.$ Why?

Answer

The two bodies may have different masses and different materials i.e. they may have different thermal capacities. In case the two bodies have equal thermal capacities, they would settle at the mean temperature $\frac{\text{T}_1+\text{T}_2}{2}.$

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Question 481 Mark

A substance absorbs heat $\text{Q}_1$ in going from one state to another and releases $\text{Q}_2$ in coming from the second state to the first state. How much work is done by the substance and what is the change in the internal energy of the substance?

Answer

Work done $\text{W}$ = $\text{Q}_1$ - $\text{Q}_2$, $\Delta \text{U}=0.$

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Question 491 Mark

Good reflectors are poor emitters of thermal radiation. Explain.

Answer

A body with good reflectivity is a poor absorber of heat and the poor absorbers of heat are poor emitters of thermal radiations.

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Question 501 Mark

What is specific heat of a gas in an isothermal process?

Answer

Infinite, because $\Delta\text{T}=0;$ use $\text{C}=\frac{\Delta\text{Q}}{\text{m}\Delta\text{T}}.$

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