The area of a blot of ink is growing such that after t seconds, its area is given by `A = (3t^(2) +7) cm^(2)`. Calculate the rate of increase of area at t=5 second.

The area of dot of ink in cm^(2) is growing such that after 5s , A = 3t^(2) +(t//5) +7 .Calculate the rate of increase of area after 5s.

A metallic disc is being heated. Its area (in m^(2) ) at any time t (in sec) is given by A=5t^(2)+4t . Calculate the rate of increase in area at t=3sec .

The area of a circle is given by A= pi r^(2) , where r is the radius. Calculate the rate of increase of area w.r.t radius.

A metallic disc is being heated. Its area A(in m^2 ) at any time t(in second) is given by A=5t^2+4t+8 . Calculate the rate of increase in area at t=3s .

A particle moves along a straight line such that its displacement at any time t is given by s = 3t^(3)+7t^(2)+14t + 5 . The acceleration of the particle at t = 1s is

A particle starts moving and its displace-ment after t seconds is given in meter by the relation x=5+4t+3t^2 . Calculate the magnitude of its a. Initial velocity b. Velocity at t=3s c. Acceleration

Electric current in a wire is time rate of flow of charge. The charge in coulombs that passes through a wire after t seconds is given by the function q(t)=t^(2)-2t^(2)+5t+2 . Determine the average current (in coulmbe per second) during the first two seconds.

A particle starts from origin with uniform acceleration. Its displacement after t seconds is given in meter by the relation x=2+5t+7t^2 . Calculate the magnitude of its a. Initial velocity b. Velocity at t=4s c. Uniform acceleration d. Displacement at t=5s

The velocity of a particle is given by v=(2t^(2)-4t+3)m//s where t is time in seconds. Find its acceleration at t=2 second.

The velocity of a particle is given by v=(4t^(2)-4t+3)m//s where t is time in seconds. Find its acceleration at t=1 second.