The charge flowing through a resistance R varies with time t as `Q=at-bt^2`, where a and b are positive constants. The total heat produced in R is :

The magnetic flux linked with a coil varies with time t as phi=at^(2)+bt+c , where a, b and c are constants. The emf induced in the coil will be zero at a time of

Differentiate a^(x) w.r.t. x, where a is a positive constant.

The position vector vecr of a particle with respect to the origin changes with time t as vecr =Athati-Bt^2hatj, where A and B are positive constants. Determine (i) the locus of the particle,

The position vector vecr of a particle with respect to the origin changes with time t as vecr =Athati-Bt^2hatj, where A and B are positive constants. Determine (ii) the nature of variation with time of the velocity and acceleration vectors, and also the moduli of them.

The position vector of a point with time varies as athati+bt^2hatj .a and b are positive constant .What is the nature of the trajectory?

Magnetic flux through a stationary loop with a resistance R varies during the time interval tau" as "phi=alphat(tau-t) where alpha is a constant. Calculate the amount of heat generated in the loop during the time interval tau .