A particle starts from rest with constant acceleration. It travels a distance x in the first 10 s and a distance y in the next 20 s. The relation between x and y is

A particle starts from rest with constant acceleration.It travels a distance x in the first10 s and a distance y in the next 20 s. The relation between x and y is.

A particle starting from rest with constant acceleration travels a distance x in first 2s and a distance y in next 2s then

A particle starts moving from rest with uniform acceleration. It travels a distance x in first 2 seconds and distance y in the next 2 seconds. Then:

A particle starts from rest with a uniform acceleration and travels 57 cm in the 10th second. Find out this distance travelled in 12 s and the velocity at that instant.

If x=acostheta and y=bsintheta ,find the relation between x and y.

A particle is in motion along a straight track. As it crosses a fixed point a stop- watch is started. The particle travels a distance 180 cm in the first 3 s and 220 cm in the next 5 s. What will be its velocity at the end of ninth second ?

If x = a sec theta and y = b tan theta , then find the relation between x and y free from theta .

A particle with constant acceleration travels x m in t th second and y m in (t+n)th second. Show that the acceleration is (y-x)/(n) "m.s"^(-2) .

A train moves from rest with acceleration alpha and in time t_(1) covers a distance x . It then decelerates to rest at a constant retardation beta for distance y in time t_(2) . Then - (A) (x)/(y)=(beta)/(alpha) (B) (beta)/(alpha)=(t_(1))/(t_(2)) (C) x = y (D) (x)/(y)=(betat_(1))/(alphat_(2))

A particle, starting from rest, is in uniform acceleration. Its displacement in (P- 1) seconds and P seconds are s_(1) and s_(2) respectively . Then what would be its displacement in the (P^(2)-P+1) -th second?