The rate of loss of heat from a body cooling under conditions of forced convection is proportional to its
(1) surface area
(2) excess of temperature over that of surrounding
(3) heat capacity
(4) absolute temperature

The rate of emission of heat of a substance is directly proportional to . . . . . . . . of temperature of it and surroundings.

Under what conditions the density of a gas will be inversely proportional to its absolute temperature?

The rate of fall of temperature of a body is difrectly proportional to the excess temperature of the body over the surroundings, (for small temperature difference). This is ________

The relation between rate of loss of heat from the body and its absolute temperature is known as

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?

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?

According to Newton’s law of cooling, the rate of cooling of a body is proportional to (Deltatheta)^(n) , where Deltatheta is the difference of the temperature of the body and the surrounding, and n is equal to :

According to Newton's law of cooling, the rate of cooling of a body is proportional to (Deltatheta)^(n),"where "Deltatheta is difference of temperature of body and surroundings, and n is equal to