A function `y=f(x)` is given by
`x = phi (t)=t^(5)-5t^(3)-20t+7`
`y= Psi (t)=4t^(3)-3t^(2)-18t+3, -2 lt t lt 2`
Find the maximum and minimum value of the function.

The domain of the funciton f(x) given by 3^(x) + 3^(f) = "min" (2t^(3) - 15t^(2) + 36t - 25, 2 + |sin t| , 2 le t le 4) is

If s=2t^(3)+3t^(2)+2t+8 then find time at which acceleration is zero.

A monkey climbs up a slippery pole for 3 and subsequently slips for 3. Its velocity at time t is given by v (t) = 2t (3 - t), 0 lt t lt 3 and v(t) = -(t - 3) (6-t) for 3 lt tlt 6 s in m/s. It repeats this cycle till it reaches the height of 20 m. (a) At what time is its velocity maximum ? (b) At what time is its average velocity maximum ? (c) At what time is its acceleration maximum in magnitude ? (d) How many cycles (counting fractions) are required to reach the top ?

The position of a particle is given by x=7+ 3t^(3) m and y=13+5t-9t^(2)m , where x and y are the position coordinates, and t is the time in s. Find the speed (magnitude of the velocity) when the x component of the acceleration is 36 m//s^(2) .

x= t^(2) + 3t- 8,y= 2t^(2) -2t- 4 . If at point (2, -1), lamda = (dy)/(dx) then the value of lamda = ……..

x= f(t), y= phi (t) then (d^(2)y)/(dx^(2)) = ……..

Find (dy)/(dx) , if x= a t^(2), y= 2 a t