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Page No 297: - Chapter 11 - Thermal Properties Of Fluids - Ncert Solutions class 11 - Physics


Question 11.21:

Explain why:

(a) a body with large reflectivity is a poor emitter

(b) a brass tumbler feels much colder than a wooden tray on a chilly day

(c) an optical pyrometer (for measuring high temperatures) calibrated for an ideal black body radiation gives too low a value for the temperature of a red hot iron piece in the open, but gives a correct value for the temperature when the same piece is in the furnace

(d) the earth without its atmosphere would be inhospitably cold

(e) heating systems based on circulation of steam are more efficient in warming a building than those based on circulation of hot water

Answer:

(a) A body with a large reflectivity is a poor absorber of light radiations. A poor absorber will in turn be a poor emitter of radiations. Hence, a body with a large reflectivity is a poor emitter.

(b) Brass is a good conductor of heat. When one touches a brass tumbler, heat is conducted from the body to the brass tumbler easily. Hence, the temperature of the body reduces to a lower value and one feels cooler.

Wood is a poor conductor of heat. When one touches a wooden tray, very little heat is conducted from the body to the wooden tray. Hence, there is only a negligible drop in the temperature of the body and one does not feel cool.

Thus, a brass tumbler feels colder than a wooden tray on a chilly day.

(c) An optical pyrometer calibrated for an ideal black body radiation gives too low a value for temperature of a red hot iron piece kept in the open.

Black body radiation equation is given by:

https://img-nm.mnimgs.com/img/study_content/curr/1/11/12/189/8093/Chapter%2011_html_m7c34f4a6.gif

Where,

E = Energy radiation

T = Temperature of optical pyrometer

To = Temperature of open space

σ = Constant

Hence, an increase in the temperature of open space reduces the radiation energy.

When the same piece of iron is placed in a furnace, the radiation energy, E = σ T4

(d) Without its atmosphere, earth would be inhospitably cold. In the absence of atmospheric gases, no extra heat will be trapped. All the heat would be radiated back from earth’s surface.

(e) A heating system based on the circulation of steam is more efficient in warming a building than that based on the circulation of hot water. This is because steam contains surplus heat in the form of latent heat (540 cal/g).

Question 11.22:

A body cools from 80 °C to 50 °C in 5 minutes. Calculate the time it takes to cool from 60 °C to 30 °C. The temperature of the surroundings is 20 °C.

Answer:

According to Newton’s law of cooling, we have:

https://img-nm.mnimgs.com/img/study_content/curr/1/11/12/189/8094/Chapter%2011_html_m26cd2ecf.gif

Where,

Temperature of the body = T

Temperature of the surroundings = T0 = 20°C

is a constant

Temperature of the body falls from 80°C to 50°C in time, t = 5 min = 300 s

Integrating equation (i), we get:

https://img-nm.mnimgs.com/img/study_content/curr/1/11/12/189/8094/Chapter%2011_html_5e20b66e.gif

The temperature of the body falls from 60°C to 30°C in time = t

Hence, we get:

https://img-nm.mnimgs.com/img/study_content/curr/1/11/12/189/8094/Chapter%2011_html_m386eaa19.gif

Equating equations (ii) and (iii), we get:

https://img-nm.mnimgs.com/img/study_content/curr/1/11/12/189/8094/Chapter%2011_html_m1db70a57.gif

Therefore, the time taken to cool the body from 60°C to 30°C is 10 minutes.