Newton's law of cooling is a special case of
(1) Stefan's law
(2) Kirchhoff's law
(3) Wien's law
(4) Planck's law
In Newton's experiment of cooling, the water equivalent of two similar calorimeters is 10 gm each. They are filled with 350 gm of water and 300 gm of a liquid (equal volumes) separately. The time taken by water and liquid to cool from 70°C to 60°C is 3 min and 95 sec respectively. The specific heat of the liquid will be
(1) 0.3 Cal/gm °C
(2) 0.5 Cal/gm °C
(3) 0.6 Cal/gm °C
(4) 0.8 Cal/gm °C
Which of the following statements is true/correct ?
(1) During clear nights, the temperature rises steadily upward near the ground level
(2) Newton's law of cooling, an approximate form of Stefan's law, is valid only for natural convection
(3) The total energy emitted by a black body per unit time per unit area is proportional to the square of its temperature in the Kelvin scale
(4) Two spheres of the same material have radii 1m and 4m and temperatures 4000 K and 2000 K respectively. The energy radiated per second by the first sphere is greater than that radiated per second by the second sphere
The rates of cooling of two different liquids put in exactly similar calorimeters and kept in identical surroundings are the same if
(1) The masses of the liquids are equal
(2) Equal masses of the liquids at the same temperature are taken
(3) Different volumes of the liquids at the same temperature are taken
(4) Equal volumes of the liquids at the same temperature are taken
The temperature of a liquid drops from 365 K to 361 K in 2 minutes. Find the time during which temperature of the liquid drops from 344 K to 342 K . Temperature of room is 293 K
(a) 84 sec (b) 72 sec
(c) 66 sec (d) 60 sec
Newton’s law of cooling, holds good only if the temperature difference between the body and the surroundings is
(1) Less than 10
(2) More than 10
(3) Less than 100
(4) More than 100
The temperature of a body falls from 50 to 40 in 10 minutes. If the temperature of the surroundings is 20, then temperature of the body after another 10 minutes will be-
(1) 36.6
(2) 33.3
(3) 35
(4) 30
A body takes \(5\) minutes to cool from \(90^{\circ}\text{C}\) to \(60^{\circ}\text{C}\). If the temperature of the surroundings is \(20^{\circ}\text{C}\), the time taken by it to cool from \(60^{\circ}\text{C}\) to \(30^{\circ}\text{C}\) will be:
1. \(5~\text{min}\)
2. \(8~\text{min}\)
3. \(11~\text{min}\)
4. \(12~\text{min}\)
An object is cooled from 75°C to 65°C in 2 minutes in a room at 30°C. The time taken to cool another object from 55°C to 45°C in the same room in minutes is -
(1) 4
(2) 5
(3) 6
(4) 7
A cane is taken out from a refrigerator at 0°C. The atmospheric temperature is 25°C. If is the time taken to heat from 0°C to 5°C and is the time taken from 10°C to 15°C, then
(1)
(2)
(3)
(4) There is no relation