The amount of charge passed in time t through a cross-section of a wire is
`Q(t)=At^(2)+Bt+C.`
(a)Write the dimensional formulae for A,B and C.
(b) If the numerical values of A,B,and C are 5,3 and 1 respectively in SI units,find the value of the current at t=5 s.

The flux of magnetic field through a closed conducting loop changes with time according to the equation, Phi = at^2 + bt+ c (a) Write the SI units of a,b and c. (b) if the magnitudes of a,b and c are 0.20, 0.40 and 0.60 respectely, find the induced emf at t = 2 s.

The velocity of a body is given by the equation v= b//t + ct^(2) + dt^(3) . Find the dimensional formula for b.

The position of a particle moving on X-axis is given by x=At^3+Bt^2+Ct+D . The numerical values of A,B,C,D are 1,4,-2 and 5 respectively and I units are used. Find a. the dimensions of A,B, C and D b. the velocity of the particle at t=4s, the acceleration of he particle at t=4s, d. The average velocity during the interval t=0 to t=4s, the average accelerationduring the interval t=0 to t=4s.

If R={(a, -2), (-5, b), (8, c), (d, -1)} represents the identify functions, find the value of a, b, c and d.

A B C is a triangle and A=(2,3,5),B=(-1,3,2) and C= (lambda,5,mu). If the median through A is equally inclined to the axes, then find the value of lambda and mu

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