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 :

The correct curve between log_(e) R and log_(e) (theta - theta_(o) ) is -

In Newton's law of cooling (d theta)/(dt)=-k(theta-theta_(0)) the constant k is proportional to .

The correct graph between the temperature of a hot body kept in cooler surrounding and time is (Assume newton's law of cooling)

Themperature of a body theta is slightly more than the temperature of the surrounding theta_(0) its rate of cooling (R ) versus temperature of body (theta) is plotted its shape would be .

Instantaneous temperature difference between cooling body and the surroundings obeying Newton's law of cooling is theta . Which of the following represents the variation of In theta with time t?

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 angle of phi_(2) and phi_(1) as shown .