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.

Charge passing through the cross-section of a conductor h given by Q = B' + A' t^(2) . What will be the current in ampere at lime t = 10 s ?

The position of a particle moving on X-axis is given by x =At^(2) + Bt + C The numerical values of A, B and C are 7, -2 and 5 respectively and SI units are used. Find (a) The velocity of the particle at t= 5 (b) The acceleration of the particle at t =5 (c ) The average velocity during the interval t = 0 to t = 5 (d) The average acceleration during the interval t = 0 to t = 5

If the points A(-1, -4) , B(b,c) and C(5,-1) are collinear and 2b + c = 4 , find the values of b and c.

Electric charge passing through a resistor changes with time t as Q = at - bt^(2) . Then total heat produce in resistor R = ....

Charge passing through a conductor carrying current is given by Q = 5t^(2) + 3t +1 , How much amount of current will pass in t = 5 s ?

An amount of heat passing through a metallic rod in time t is given by Q=(KA(T_(1)-T_(2))t)/(I) where k= thermal conductivity A= Cross sectional area, T_(1) and T_(2) are temeprature of hot and cold ends respectively and L= length. So the dimesional formula for k=.....

If the points A(-1, 3, 2), B(-4, 2, -2) and C(5, 5, lambda ) are collinear then find the value of lambda .

If A,B and C are square matrices of order n and det (A)=2, det(B)=3 and det ©=5, then find the value of 10det (A^(3)B^(2)C^(-1)).

If the vectors vec a , vec b ,a n d vec c form the sides B C ,C Aa n dA B , respectively, of triangle A B C ,t h e n

The current through a wire depends on time as i=(2+3t)A . Calculate the charge crossed through a cross section of the wire in 10sec.