A metal ball cools from `64^(@)C` to `50^(@)C` in 10 minutes and to `42^(@)C` in the next 10 minutes. The ratio of the rates of fall of temperature during the two intervals is

A metal sphere cools from 64 °C to 55 °C in 10 minutes and to 42 °C in the next 10 minutes. The ratio of fall of temperature of first 10 minutes to next ten minutes is

Hot water cools from 60^@C to 50^@C in the first 10 minute and to 42^@C in the next 10 minute The temperature of the surrounding is

Certain quantity of water cools from 70^(@)C to 60^(@)C in the first 5 minutes and to 54^(@)C in the next 5 minutes. The temperature of the surrounding is

Certain quantity of water cools from 70^@C to 60^@C in the first 5 minutes and to 54^@C in the next 5 minutes. The temperature of the surroundings is

A body initially at 80^(@)" C" cools to 64^(@)" C" in 5 minutes and to 52^(@)"C" in 10 minutes. The temperature of the body after 10 minutes will be

A body cools from 80^(@)C to 60^(@)C in 5 minutes. Then its average rate of cooling is

If a body cools from 80^@C to 50^@ C at room temperature of 25^@ C in 30 minutes.Find the temperature of the body after 1 hour.

A body cools from 62^@ C to 50^@C in 10 minutes. How long will it take to cool to 42^@C , if room temperature is 26^@C ?

The temperature of a body falls from 50^(@)C to 40^(@)C in 10 minutes. If the temperature of the surroundings is 20^(@)C Then temperature of the body after another 10 minutes will be