1) Find f’(x), given f(x) = x^1/3 (lnx) 2)Find f(x), given f’’(x) = 3 , f’(0)...

Find the absolute maximum and minimum values for f(x) = 1 x + lnx, 1 2...

Find the absolute maximum and minimum values for f(x) = 1 x + lnx, 1 2 ≤ x ≤ 4.

A ball is thrown directly upward from a height of 3 ft with an initial velocity...

A ball is thrown directly upward from a height of 3 ft with an initial velocity of 20 ft/sec. the function s(t) = -16t^2+20t+3 gives the height of the ball, in feet, t seconds after it has been thrown. Determine the time at which the ball reaches its maximum height and find the maximum height.

2. a) Given f(x)=x^2-2x, Draw the graph of the function and find an approximation for the...

2. a) Given f(x)=x^2-2x, Draw the graph of the function and find an approximation for the area bounden by the graph from x=2 to x=4 using 4 subintervals. b) Find the area bounded by the graph of f and the x-axis from x=2 to x=4.                                                  c) Find the area bounded by the graph of f and the x-axis from x=0 to x=4. (Note that the functional values are negative from x=0 to x=2)

A ball with mass 1/9.8 kg is thrown upward with initial velocity 20 m/s from the...

A ball with mass 1/9.8 kg is thrown upward with initial velocity 20 m/s from the roof of a building 30 m high. Assume that the force of air resistance (drag force) is (v^2)/1225. Find the maximum height above the ground that the ball reaches. (Hint: find the velocity v(t) first, then find the height x(t).)

2. A ball is thrown straight upward from the window of a building 40 meters above...

2. A ball is thrown straight upward from the window of a building 40 meters above the ground with an initial velocity of 20 m/s. Calculate a. The speed of the ball after 1.5 sec. b. The time needed for ball to reach its maximum height. c. The maximum height. d. The time needed for the ball to return back to the same window which was thrown e. The time needed for the ball to reach the ground. f. Final...

A ball is thrown directly upward from the edge of a rock and travels such that...

A ball is thrown directly upward from the edge of a rock and travels such that after t seconds its height in feet above the ground is given by the equation s(t) =-2.5t^2+10t+2 1.Find the equation that represents the instant velocity v(t) of the ball on t time. 2.When does the ball has zero velocity? 3. What is the maximum height that the ball reaches? 4. When does the ball touches the surface of the Earth? 5. build the graph...

2) An object is thrown upward with an initial velocity of 144 feet per second from...

2) An object is thrown upward with an initial velocity of 144 feet per second from an initial height of 160 feet. Use the fact that the acceleration due to gravity is -32 feet per second per second to answer the following: a) Using integration, find the position function giving the height s as a function of time t. b) At what time will the ball reach maximum height? c) When does the ball hit the ground? d) What is...

Given: X F(X) 0 .3 1 .4 2 .1 3 .2 Find expected value of X....

Given: X F(X) 0 .3 1 .4 2 .1 3 .2 Find expected value of X. Find Standard Deviation of X

Please only use the following kinematic equations: v=vnot+at x=xnot+vnot(t)+1/2at^2 v^2=vnot^2+2a(deltax) (deltax)=(v+vnot/2)(t) A baseball player throws a...

Please only use the following kinematic equations: v=vnot+at x=xnot+vnot(t)+1/2at^2 v^2=vnot^2+2a(deltax) (deltax)=(v+vnot/2)(t) A baseball player throws a 550.-gram ball straight up with an initial velocity of 28.0 m/s. (ignore air resistance) a) Find maximum height reached by the ball. b) At what time (after ball is thrown) does the ball return past its starting position? c) Find the ball's displacement and velocity 3.70s after the ball is thrown. Specify whether the velocity is upward or downward.

Let f(x)=x^2- lnx. Find the local maximum and minimum values of f by using the Second...

Let f(x)=x^2- lnx. Find the local maximum and minimum values of f by using the Second Derivative Test.