Consider two hot bodies B(1) and B(2) wh...

Consider two hot bodies `B_(1)` and `B_(2)` which have temperature `100^(@)"C"` and `80^(@)"C"` respectively at t = 0. The temperature of surroundings is `40^(@)" C"`. The ratio of the respective rates of cooling `R_(1)` and `R_(2)` of these two bodies at` t = 0` will be

`R_(1) : R_(2) = 3 : 2`

`R_(1) : R_(2) = 5 : 4`

`R_(1) : R_(2) = 2 : 3`

`R_(1) : R_(2) = 4 : 5`

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

TRANSMISSION OF HEAT
ERRORLESS |Exercise Critical Thinking|36 Videos
TRANSMISSION OF HEAT
ERRORLESS |Exercise Graphical Questions|17 Videos
TRANSMISSION OF HEAT
ERRORLESS |Exercise Radiation (Stefan s law)|56 Videos
THERMOMETRY, THERMAL EXPANSION AND CALORIMETRY
ERRORLESS |Exercise Self Evaluation Test|15 Videos
UNITS, DIMENSION & MEASUREMENTS
ERRORLESS |Exercise All Questions|333 Videos

Similar Questions

Explore conceptually related problems

A body cools at the rate of 3^(@)C// min when its temperature is 50^(@)C . If the temperature of surroundings is 25^(@)C then the rate of cooling of the body at 40^(@)C is

A body is heated to a temperature of 75^(@)C and is allowed to cool. If the temperature of the surrounding is 35^(@)C , then the temperature at which the rate of cooling will be exactly half of that initially will be

A body cools in 7 min from 60^@C to 40^@C What will be its temperature after the next 7 min? The temperature of surroundings is 10^@C .

A body takes 10min to cool from 60^(@)C " to" 50^(@0C . If the temperature of surrounding is 25^(@)C , then temperature of body after next 10 min will be

Two spherical black bodies of radii R_(1) and R_(2) and with surface temperature T_(1) and T_(2) respectively radiate the same power. R_(1)//R_(2) must be equal to

A body cools from 50^@C " to " 40^@C in 5 min. If the temperature of the surrounding is 20^@C , the temperature of the body after the next 5 min would be

ERRORLESS -TRANSMISSION OF HEAT-Radiation (Newton s Law of Cooling)

Hot water cools from 60^@C to 50^@C in the first 10 min and to 42^@C i...
Text Solution
|
A bucket full of hot water cools from 75^(@)C to 70^(@)C in time T(1),...
Text Solution
|
Consider two hot bodies B(1) and B(2) which have temperature 100^(@)"C...
Text Solution
|
Newton's law of cooling is a special case of .
Text Solution
|
Equal masses of two liquids are filled in two similar calorimeters. Th...
Text Solution
|
In Newton's experiment of cooling, the water equivalent of two similar...
Text Solution
|
Newton's law of cooling is used in laboratory for the determination of...
Text Solution
|
A body cools from 60^(@)C to 50^(@)C in 10 minutes when kept in air at...
Text Solution
|
Liquid is filled in a vessel which is kept in a room with temperature ...
Text Solution
|
Which of the following statements is true/correct
Text Solution
|
A body takes 4 minutes to cool from 100^(@)C to 70^(@)C. To cool from ...
Text Solution
|
A cup of tea cools from 80^(@)C to 60^(@)C in one minute. The ambient ...
Text Solution
|
A liquid cools down from 70^(@)C to 60^(@)C in 5 minutes. The time tak...
Text Solution
|
If a metallic sphere gets cooled from 62^(@)C to 50^(@)C in utesmin1...
Text Solution
|
The rates of cooling of two different liquids put in exactly similar c...
Text Solution
|
A body cools from 60^(@)C to 50^(@)C in 10 minutes . If the room tempe...
Text Solution
|
The temperature of a liquid drops from 365 K to 361 K in 2 minutes . ...
Text Solution
|
A body cools from 50^@C to 49^@C in 5 s. How long will it take to cool...
Text Solution
|
A container contains hot water at 100^(@)C. If in time T(1) temperatur...
Text Solution
|
Hot water kept in a beaker placed in a room cools from 70^(@)C to 60°...
Text Solution
|