Following are four different relation about displacement,velocity and acceleration for the motion of a particle in general.Choose the incorrect one (S).
a) `V_(av)=(1)/(2)[v(t_(1))+v(t_(2))]`
b)`V_(av)=(r(t_(2))-r(t_(2)))/(t_(2)-t_(1))`
c)r=`(1)/(2)(v(t_(2))-v(t_(1))(t_(2)-t_(1))`
d)`a_(av)=(v(t_(2))-v(t_(1)))/(t_(2)-t_(1))`

The velocity-time graph of a particle in one-dimensional motion is shown in Fig. Which of the following formulae are correct for describing the motion of the particle over the time-interval t_(1) to t_(2) : (a) x(t_(2))=x(t_(1))+upsilon(t_(1))(t_(2)-t_(1))+(1//2)a(t_(2)-t_(1))^(2) (b) upsilon(t_(2))=upsilon(t_(1))+a(t_(2)-t_(1)) (c ) upsilon_("average")=(x(t_(2))-x(t_(1)))//(t_(2)-t_(1)) (d) a_("average")=(upsilon(t_(2))-upsilon(t_(1)))//(t_(2)-t_(1)) (e ) x(t_(2))=x(t_(1))+upsilon_("average")(t_(2)-t_(1))+(1//2)a_("average")(t_(2)-t_(1))^(2) (f) x(t_(2))-x(t_(1))= area under the upsilon-t curve bounded by the t-axis and the dotted line shown.

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 =

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

A particle moves in a circle with speed v varying with time as v(t) = 2t. The total acceleration of the particle after it completes 2 rounds of cycle is

If the normal at t_(1) on the parabola y^(2)=4ax meet it again at t_(2) on the curve then t_(1)(t_(1)+t_(2))+2 =