If `E=2r^(2)` then find V(r)

If V=2r^(2) then find (i) vec(E) (1, 0, -2) (ii) vec(E) (r=2)

If T_r=r(r^2-1), then find sum_(r=2)^oo1/Tdot

R rarr R be defined by f(x)=((e^(2x)-e^(-2x)))/2 . is f(x) invertible. If yes then find f^(-1)(x)

R rarr R be defined by f(x)=((e^(2x)-e^(-2x)))/2 . is f(x) invertible. If yes then find f^(-1)(x)

If x^2+y^2=R^2(w h e r eR >0)a n dk=(y prime prime)/((1+yprime^2)^3) then find k in terms of R alone.

In a triangle ABC, if r_1 + r_3 + r = r_2 , then find the value of (sec^2 A + csc^2 B-cot^2 C) ,

In Fig. key K is closed at t = 0 . After a long time, the potential difference between A and B is zero, the value of R will be [r_(1) = r_(2) = 1 Omega, E_(1) = 3 V and E_(2) = 7 V , C = 2 mu F , L = 4 mH , where r_(1) and r_(2) are the internal resistances of cells E_(1) and E_(2) , respectively].

Assertion : The average velocity of a particle having initial and final velocity v_(1) and v_(2) is v_(1)+v_(2)//2 . Reason : If r_(1) and r_(2) be the initial and final displacement in time t, then v_(av)=(r_(1)-r_(2))/(t) .

Two planets of masses M and M/2 have radii R and R/2 respectively. If ratio of escape velocities from their surfaces (v_1)/(v_2) is n/4 , then find n :

If the coefficient of (2r+4)th and (r-2)th terms in the expansion of (1+x)^(18) are equal, find r .