A marble is rolled off a frictionless horizontal table that is 0.5 m high and lands...

A ball rolls off a table with a horizontal velocity of 7 m/s. If it takes...

A ball rolls off a table with a horizontal velocity of 7 m/s. If it takes 0.8 s to reach the floor: (a) What is the vertical component of the ball's velocity just before it hits the floor? (b) What is the horizontal component of the ball's velocity just before it hits the floor? Use g = 10 m/s2

A physics book slides off a horizontal table top with a speed of 1.15 m/s. It...

A physics book slides off a horizontal table top with a speed of 1.15 m/s. It strikes the floor in 0.500 s. Ignore air resistance. (Assume the book's horizontal direction and upward are positive.) (a) Find the height of the table top above the floor. m (b) Find the horizontal distance from the edge of the table to the point where the book strikes the floor. m (c) Find the horizontal and vertical components of the book's velocity just before...

Two balls are rolled off a tabletop that is 0.8 m above the floor. Ball A...

Two balls are rolled off a tabletop that is 0.8 m above the floor. Ball A has a horizontal velocity of 3 m/s and that of ball B is 5 m/s. a. How long does it take each ball to reach the floor after it rolls off the edge? b. How far does each ball travel horizontally before hitting the floor?

A 100-g ball rolls off a table and lands 2.0 m from the base of the...

A 100-g ball rolls off a table and lands 2.0 m from the base of the table. A 200-g ball rolls off the same table with the same speed. It lands at distance?

A B C D 20. A ball rolls off a table with a horizontal velocity of...

A B C D 20. A ball rolls off a table with a horizontal velocity of 6 m/s. If it takes 0.5 seconds for it to reach the floor: What is the vertical component of the ball's velocity in m/s just before it hits the floor? (Use g = 10 m/s^2) a) 6, b) 10, c) 3, d) 5. A B C D 21. A ball rolls off a table with a horizontal velocity of 6 m/s. If it takes...

A physics book slides off a horizontal tabletop with a speed of 1.10 m/s. It strikes...

A physics book slides off a horizontal tabletop with a speed of 1.10 m/s. It strikes the floor in 0.350 s. Ignore air resistance. Find (a) the height of the tabletop above the floor, (b) the horizontal distance from the edge of the table to the point where the book strikes the floor, and (c) the horizontal and vertical components of the book’s velocity, and the magnitude and direction of its velocity, just before the book reaches the floor.

Jasper the cat slides off the edge of a horizontal tabletop, 0.80 meters above the ground....

Jasper the cat slides off the edge of a horizontal tabletop, 0.80 meters above the ground. Hint, his velocity as he leaves the table is horizontal. a) If he lands on the floor 1.50 meter from the edge of the table, what is the magnitude of his initial velocity, vo? b) What is the magnitude and direction (as an angle with the floor) of his final velocity as he hits the floor?

A 10.0-g marble slides to the left at a speed of 0.400 m/s on the frictionless...

A 10.0-g marble slides to the left at a speed of 0.400 m/s on the frictionless horizontal surface and has a head-on collision with a larger 30.0-g marble sliding to the right at a speed of 0.200 m/s.(a)If this collision is perfectly elastic, find the velocity of each marble after the collision.(b)Calculate the change in momentum of each marble. Compare the two values. Do your results make sense? Why?(c)Calculate the change in kinetic energy of each marble. Compare the two...

A mountain climber throws a carabiner off the vertical face of a cliff from a height...

A mountain climber throws a carabiner off the vertical face of a cliff from a height h=27.2 m above the ground. The carabiner lands a horizontal distance of 36.3 m away from the base of the cliff. If the carabiner was thrown with an initial velocity that is horizontal, what was its initial speed when thrown?

A 0.85 kg block slides 3.3 m across a frictionless, horizontal table at 2.2 m/s, moving...

A 0.85 kg block slides 3.3 m across a frictionless, horizontal table at 2.2 m/s, moving left. Once the block hits the spring, it sticks, compressing the spring 70 cm before the block stops and reverses direction. The block then continues to bounce back and forth, still attached to the spring. The spring constant is 8.4 N/m. Ignore air resistance. (b) [3 points] Plot the velocity of the block as a function of time, with t = 0 when the...