A body cools from a temperature `3 T` to `2 T` in `10` minutes. The room temperature is `T`. Assume that Newton's law of cooling is applicable. The temperature of the body at the end of next `10` minutes will be

A body cools from 60^(@)C to 50^(@)C in 10 minutes . If the room temperature is 25^(@)C and assuming Newton's law of cooling to hold good, the temperature of the body at the end of the next 10 minutes will be

A body cools from "60 ∘ C to 50 ∘C in 10 minutes.If the room temperature is "25 ∘ C then the temperature of the body at the end of the next "10" minutes will be

A body cools from 60%@C to 50^@ C in 10 min. Find its temperature at the end of next 10 min if the room temperature is 25^@C . Assume Newton's law of cooling holds.

Newton's law of cooling holds good provided the temperature difference between the body and the surroundings is .

A body cools from 100^(@)C to 70^(@)C in 8 minutes. If the room temperature is 15^(@)C and assuming newton's law of cooling holds good, then time required for the body to cool from 70^(@)C to 40^(@)C is

A body cools from 100^(@)C to 70^(@)C in 8 second. If the room temperature is 15^(@)C , and assuming that Newton's law of cooling holds good, then time required for the body to cool from 70^(@)C to 40^(@)C is

Newton’s law of cooling, holds good only if the temperature difference between the body and the surroundings is

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

A body with an initial temperature theta_(1) is allowed to cool in a surrounding which is at a constant temperature of theta_(0) (theta lt theta_(1)) Assume that Newton's law of cooling is obeyed Let k = constant The temperature of the body after time t is best experssed by .