Chloramine `-T` is a `:`

The vertices of a triangle are [a t_1t_2,a(t_1 +t_2)] , [a t_2t_3,a(t_2 +t_3)] , [a t_3t_1,a(t_3 +t_1)] Then the orthocenter of the triangle is: (a) (-a, a(t_1+t_2+t_3)-at_1t_2t_3) (b) (-a, a(t_1+t_2+t_3) + a(t_1t_2t_3) (c) (a, a(t_1+t_2+t_3)+at_1t_2t_3) (d) (a, a(t_1+t_2+t_3)-at_1t_2t_3)

The vertices of a triangle are [a t_1t_2,a(t_1 +t_2)] , [a t_2t_3,a(t_2 +t_3)] , [a t_3t_1,a(t_3 +t_1)] Then the orthocenter of the triangle is (a) (-a, a(t_1+t_2+t_3)-at_1t_2t_3) (b) (-a, a(t_1+t_2+t_3)+at_1t_2t_3) (c) (a, a(t_1+t_2+t_3)+at_1t_2t_3) (d) (a, a(t_1+t_2+t_3)-at_1t_2t_3)

The distance s of a particle in time t is given by s=t^3-6t^2-4t-8 . Its acceleration vanishes at t=

A particle moving on a curve has the position at time t given by x=f'(t) sin t + f''(t) cos t, y= f'(t) cos t - f''(t) sin t where f is a thrice differentiable function. Then prove that the velocity of the particle at time t is f'(t) +f'''(t) .

The normal drawn at a point (a t_1^2,-2a t_1) of the parabola y^2=4a x meets it again in the point (a t_2^2,2a t_2), then t_2=t_1+2/(t_1) (b) t_2=t_1-2/(t_1) t_2=-t_1+2/(t_1) (d) t_2=-t_1-2/(t_1)

If the coordinates of a vartiable point P be (t+(1)/(t), t-(1)/(t)) , where t is the variable quantity, then the locus of P is

What must be added to 11t^(3)+5t^(4)+6t^(5)-3t^(2)+t+5 , so that the resulting polynomial is exactly divisible by 4-2t+3t^(2) ?

Two particle A and B are moving in XY-plane. Their positions vary with time t according to relation x_(A)(t)=3t, x_(B)(t)=6 y_(A)(t)=t, y_(B)(t)=2+3t^(2) The distance between two particle at t=1 is :

The area of triangle formed by tangents at the parametrie points t_(1),t_(2) and t_(3) , on y^(2) = 4ax is k |(t_(1)-t_(2)) (t_(2)-t_(1)) (t_(3)-t_(1))| then K =

One junction of a certain thermoelectric couple is at a fixed temperature r T and the other junction is at temperature T . The thermo electromotive force for this is expressed by E=K(T-T_(r ))[T_(0)-(1)/(2)(T+T_(r ))] . At temperature T=(1)/(2)T_(0) , the thermoelectric power is