Ac cording to Newton's law of cooling, the rate of cooling of a body is proportional to `(Delta theta)^(n)`, where `Delta theta` is the difference of the temperature of the body and thae surrounding. What is the value of n out of 4,3,2,and 1?

In an experiment of Newton's law or cooling the graph between the rate of cooling of the body and excess of temperature with the surrounding is ______

A body cools at the rate of 1.5 °C/min when its temperature is 30 °C above that of the surrounding. At what temperature above the surrounding will it cool at the rate of 1 °C/min?

A body cools in a surrounding which is at a constant temperature of theta_0 .Assume that it obeys Newton's law of cooling. Its temperature theta is plotted against time t. Tangents are drawn to the curve at the points P(theta=theta_1) and Q(theta=theta_2) . These tangents meet the time axis at angles of 0/_2 and 0/_1 as shown

A body cools according to Newton's law from 100^@ C to 60^@ C in 20 minutes.The temperature of the surrounding being 20^@ C ,how long will it take to cool down to 30^@ C ?

A body cools at the rate of 4^@C per minute when its temperature is 70^@C . What will be its rate of cooling when its temperature is 50^@C ? (Assume temperature of surrounding to be 30^@C )

In Newton's law of cooling, if the rates of emission of radiation by a calorimeter from 90 DC to 85 DC, 85 °C to 80 °C-and from 80 °C to 75 °C are E_1,E_2 and E_3 respectively, then

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 liquid in a beaker has temperature theta(t) at time t and theta_0 is temperature of surroundings, then according to Newton's law of cooling the correct graph between log_e (theta-theta_0) and t is

frac{3+2isintheta}{1-2isintheta} will be real , if theta = [where n is an integer]