3. You throw a ball vertically upward with an initial velocity v0 . Assume that air...

You throw a ball vertically upward with an initial velocity of 10 m/s from a window...

You throw a ball vertically upward with an initial velocity of 10 m/s from a window located 20 m above the ground. Knowing that the acceleration of the ball is constant and equal to 9.81 m/s^2 downward (this makes for negative acceleration as upward motion is positive and downward motion is negative and gravity pulls downward), determine: (a) The acceleration at t = 2 s (b) The equation for velocity (Because you are looking for an equation for velocity, you...

A ball is thrown vertically upward, which is the positive direction. A little later it returns...

A ball is thrown vertically upward, which is the positive direction. A little later it returns to its point of release. The ball is in the air for a total time of 8.42 s. What is its initial velocity? Neglect air resistance. v0 =

A projectile of mass m = 5kg is thrown upward vertically with a velocity v0 =...

A projectile of mass m = 5kg is thrown upward vertically with a velocity v0 = 9 m/s a) Starting with Newton's 2nd Law FNet = ma, calculate the time to an accuracy of four decimal places at which the maximum height is reached when no air resistance is present. b) Starting with Newton's 2nd Law FNet = ma, calculate the time to an accuracy of four decimal places at which the maximum height is reached when considering the following...

A ball of mass m=2.00 kg is thrown vertically with velocity v0=10.0 m/s. a) What maximum...

A ball of mass m=2.00 kg is thrown vertically with velocity v0=10.0 m/s. a) What maximum height would it reach if the average force of air resistance were Fd= 5 N? [4.06 m] b) The ball lands on a spring (with k=200 N/m), which brings it to a stop 1 m above the launch point. How much would the spring compress before the ball stops? (Assume that air resistance acts the entire way) [0.67 m] I don't know how to...

I throw a ball straight upward at an initial velocity of +40 m/s. Assuming g is...

I throw a ball straight upward at an initial velocity of +40 m/s. Assuming g is -10 m/s2, (a) how long would it take for the ball to reach its maximum height before falling back down? (b) what will its final speed be right before reaching your hand again at the same height as where you threw it? (c) how does the acceleration of the ball change as it reaches the top of its path going 0 m/s?

A ball is thrown vertically upward from the edge of a cliff, with an upward velocity...

A ball is thrown vertically upward from the edge of a cliff, with an upward velocity of 20 m/s. On its way back down, it just misses the end of the cliff. (a) Find the position and velocity of the ball 1 s and 4 s after it is thrown; (b) Find the velocity of the ball when it is 5 m above the flat surface of the cliff. Write the magnitude of the velocity in the Answer box below...

A ball of mass m is projected vertically upwards at a velocity v◦. The ball experiences...

A ball of mass m is projected vertically upwards at a velocity v◦. The ball experiences an air resistance force (in addition to gravity) of the form FR = −αv^2 where α > 0 is constant and v is the velocity, and reaches a maximum height h before it returns back to the point of projection. (a) Write down the equations of motion of the ball during its upward and and downward journeys and show that the maximum height reached...

A girl throws a ball straight up into the air with the initial velocity v0 =...

A girl throws a ball straight up into the air with the initial velocity v0 = 18.0 m/s. At a certain point, the ball falls back into the girl's hands. a) What is the highest height the ball will reach? b) How long is the ball in the open air? c) What is the velocity of the ball just before it hits again?

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).)

A beach ball is thrown upward with initial speed v0. Assume that the drag force from...

A beach ball is thrown upward with initial speed v0. Assume that the drag force from the air is F = −mαv. What is the speed of the ball, vf , when it hits the ground? (An implicit equation is sufficient.) Does the ball spend more time or less time in the air than it would if it were thrown in vacuum? Where is the time needed in space vacuum is t = 2v0 / g .