Two spheres A and B have diameters in th...

Two spheres A and B have diameters in the ratio `1:2`, densities in the ratio `2:1` and specific heat in the ratio `1:3`. Find the ratio of their thermal capacities.

`1 : 2`

`1 : 12`

`1 : 4`

`2 : 1`

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

THERMOMETRY, THERMAL EXPANSION AND CALORIMETRY
ERRORLESS |Exercise Critical Thinking|27 Videos
THERMOMETRY, THERMAL EXPANSION AND CALORIMETRY
ERRORLESS |Exercise Graphical Questions|14 Videos
THERMOMETRY, THERMAL EXPANSION AND CALORIMETRY
ERRORLESS |Exercise Thermal Expansion|34 Videos
THERMODYNAMICS
ERRORLESS |Exercise All Questions|304 Videos
TRANSMISSION OF HEAT
ERRORLESS |Exercise ET Self Evaluation Test|23 Videos

Similar Questions

Explore conceptually related problems

[" Two spheres "A" and "8" have diameters in "],[" the ratio "1:2" ,densities in the ratio "4" : "1],[" and specific heats in the ratio "1" 3.The "],[" ratio of their thermal capacities "],[[" (A) "1:6],[" (B) "1:12],[" (C) "1:3],[" (D) "1:4]]

The ratio of thermal capacities of two spheres A and B, their diameters are in the ratio 1:2 densities in the ratio 2:1 , and the specific heat in the ratio of 1:3 , will be

Two sphere of radii in the ratio 1 : 2 , have specific heats in the ration 2 : 3 . The densities are in the ratio 3 : 4 . Find the ration of their thermal capacities.

Two sphere with radii in the ratio 1 : 2 have specific heats in the ratio x : y and densities in the ratio z : x . The ratio of their thermal capacities is

The ratio of densities of two substances is 2 : 3 and their specific heats are in the ratio 3:4. The ratio of their thermal capacities for unit volume is

Two moving bodies having mass in the ratio 1: 2 and kinetic energy in the ratio 1:8 . Find the ratio of their velocities.

Two spheres made of same substance have diameters in the ratio 1:2. their thermal capacities are in the ratio of

ERRORLESS -THERMOMETRY, THERMAL EXPANSION AND CALORIMETRY -Calorimetery

80 g of water at 30^@C are poured on a large block of ice at 0^@C. The...
Text Solution
|
The saturation vapour pressure of water at 100^(@)C is
Text Solution
|
Two spheres A and B have diameters in the ratio 1:2, densities in the ...
Text Solution
|
Work done in converting 1 g of ice at -10^@C into steam at 100^@C is
Text Solution
|
If mass-energy equivalence is taken into account, when water is cooled...
Text Solution
|
Compared to a burn due to water at 100^(@)C , a burn due to steam at 1...
Text Solution
|
50 gm of copper is heated to increase its temperature by 10^(@)C. If t...
Text Solution
|
Two liquid A and B are at 32^@C and 24^@C. When mixed in equal masses ...
Text Solution
|
A beaker contains 200 g of water. The heat capacity of the beaker is e...
Text Solution
|
Amount of heat required to raise the temperature of a body through 1 K...
Text Solution
|
A metallic ball and highly stretched spring are made of the same mater...
Text Solution
|
A liquid of mass m and specific heat c is heated to a temperature 2T. ...
Text Solution
|
Calorie is defined as the amount of heat required to raise temperature...
Text Solution
|
100g ice at 0^(@)C is mixed with 100g water at 100^(@)C. The resultant...
Text Solution
|
At NTP water boils at 100^(@)C . Deep down the mine, water will boil a...
Text Solution
|
A closed bottle containing water at 30^(@)C is carried to the moon in ...
Text Solution
|
The thermal capacity of 40 g of aluminium (specific heat =0.2 cal//gm^...
Text Solution
|
If temperature scale is changed from '^(@)C to '^(@)F, the numerical v...
Text Solution
|
By exerting a certain amount of pressure on an ice block, you
Text Solution
|
When we rub our hands they become warm. Have we supplied heat to the h...
Text Solution
|