The kinetic energy of a particle varies with time according to the relation `E_k = (3t+4)`. The force acting on the particle:

The displacement of a particle varies with time according to the relation y = alpha sin omegat + b cos omegat .

A particle moves alopng x-axis in such a way that its coordinates x varies with time t according to the equation. x = (2 - 5t + 6t^2) m. The initial velocity of the pawrticle is

The potential energy of a certain particle is given by U = 30x^2 - 20 y^2 . Find the force acting on the particle.

Rate constant 'k' of a reaction varies with temperature 'T' according to the equation: log k= log A- (E_a)/(2.303R) (1/T) where E_a is the activation energy. When a graph is plotted for log k vs. 1/T , a straight line with a slope of - 4250 K is obtained. Calculate E_a for the reaction (R = 8.314 JK^-1 mol^-1)

The displacement of a particle along a straight time at line t is given by ,x=4+2t +3t^2+4t^3 .Find acceleration fo the particle at t=2 second.

The magnetic flux through a coil perpendicular to its plane and directed into the paper is varying according to the relation, phi= (3t^3+2t^2 +4t+6) Wb. Calculate the e.m.f. induced in the coil at t = 2s.

The linear momentum of a body varies with time as p= alpha + beta t^2 where alpha and beta are constants .The net force acting on the body is proportional to :