The total energy radiated from a block b...

The total energy radiated from a block body source at constant temperature is collected for one minute and is used to heata quantity of water. The temperature of water is found to increase from `20^(@)C` to `20.5^(@)C`. If the absolute temperature of the blackbody is doubled and hte experiment is repeated with the same quantity of water of `20^(@)C`, the temperature of water will be:

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The total energy radiated from a block body source at constant temperature is collected for one minute and is used to heat a quantity of water. The temperature of water is found to increase from 20^(@)C to 20.5^(@)C . If the absolute temperature of the blackbody is doubled and the experiment is repeated with the same quantity of water of 20^(@)C , the temperature of water will be:

The total energy of a blackbody radiation source is collected for one minute and used to heat water The temperature of the water in creases from 20^(@)C to 20.5^(@)C If the absolute temperature of the blackbody is diubled and the experiment repeated which of the following statements would be most nearly COR-RECT ? .

The total energy of a black body radiation source is collected for five minutes and used to heat water. The temperature of the water increases from 10.0^(@) to 1 1.0^(@) . The absolute temperature of the black body is doubled and its surface area halved and the experiment repeated for the same time. Which of the following statements would be most nearly correct ?

Wooden block is floating on water having a temperature of 0^@C and its V volume Is outside of the water. If the temperature of water is increased from 0^@C to 20^@C what will be the effect on the volume V?

The temperature of a body falls from 30^(@)C to 20^(@)C in 5 minutes. The temperature of the air is 13^(@)C . Find the temperature of the body after another 5 minutes.

A block of wood is floating on water at 0^@ C with a certain volume V outside the water-level. The temperature of water is slowly raised from 0^@C to 20^@C . How will the volume V change with rise in temperature ?

Heat required to increases the temperature of 1kg water by 20^(@)C

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