a small block A is released from rest and slide down the frionless ramp to the...

The figure shows a double-ended slide track. A small block can slide along the track and...

The figure shows a double-ended slide track. A small block can slide along the track and move up and down either end of the track. The level part of the track has length L= 39 cm, and the coefficient of kinetic friction, LaTeX: \mu_k μ k , is 0.21 in this section. The curved parts of the track are frictionless. The block is released from rest at a height h = 22 cm above the bottom of the track (as...

A 0.20-kg block slides from rest down a frictionless track from a height of 1.5 m,...

A 0.20-kg block slides from rest down a frictionless track from a height of 1.5 m, and encounters a loop that is 1.0 m high. (a) What is the speed of the block at the top of the loop? (b) The block is slowed by a spring at the bottom of the track. If the stiffness of the spring is 0.90 kN/m, how far does the block slide before coming to rest?

A marble must be released from a minimum height, h, to just make it through a...

A marble must be released from a minimum height, h, to just make it through a loop.A marble slides down a track (without rolling), just making it around a loop. The height at which it is dropped is 2.5R (the radius of the loop). Now, the marble rolls down the track. Find the height, h, that a rolling marble must be released from to just pass through the loop. The marble has mass, m, and radius, r.

A 500-g block is released from rest and slides down a frictionless track that begins 2.26...

A 500-g block is released from rest and slides down a frictionless track that begins 2.26 m above the horizontal, as shown in the figure below. At the bottom of the track, where the surface is horizontal, the block strikes and sticks to a light spring with a spring constant of 29.5 N/m. Find the maximum distance the spring is compressed. m A 500-g block rests at the top of a track on a horizontal platform. From this platform, the...

A block of mass M sits at rest at the top of a frictionless curved ramp...

A block of mass M sits at rest at the top of a frictionless curved ramp of height h. After being released, the block is moving with speed 4v when it collides with a block of mass 1.5M at the bottom of the ramp. Immediately following the collision, the larger block has a speed 2v. The second block is attached to a vertical rope, and swings freely as a pendulum after the collision. The pendulum string has length L. a)...

As part of an experiment in physics lab, small metal ball of radius r = 2.1...

As part of an experiment in physics lab, small metal ball of radius r = 2.1 cm rolls without slipping down a ramp and around a loop-the-loop of radius R = 3.7 m. The ball is solid with a uniform density and a mass M = 336 g. 1) How high above the top of the loop must it be released in order that the ball just makes it around the loop? m 2) Now instead of a sphere, what...

You do a physics lab experiment on another planet. A small block is released from rest...

You do a physics lab experiment on another planet. A small block is released from rest at the top of a long frictionless ramp that is inclined at an angle of 36.9° above the horizontal. You measure that a small block travels a distance 15.0 m down the incline in 7.90 s. What is the value of g, the acceleration due to gravity on this planet?

A solid sphere 0.16 m in diameter is released from rest, rolls down a ramp, and...

A solid sphere 0.16 m in diameter is released from rest, rolls down a ramp, and drops through a vertical height of h1 = 0.57 m. The ball leaves the bottom of the ramp, which is h2 = 1.08 m above the floor, moving horizontally. (a) What distanced does the ball move in the horizontal direction before landing? m (b) How many revolutions do it completely during its fall (i.e., after it rolls off and before it lands)? rev

There is a variable amount of friction between a block of mass m and a ramp...

There is a variable amount of friction between a block of mass m and a ramp at an angle θ above the horizontal. The kinetic and static coefficients of friction are equal but vary as µ=Ax, where x is measured along the ramp and x = 0 is the bottom of the ramp. The block is sent up the ramp with an initial speed v0, and comes to a stop somewhere on the ramp. In the following parts, take your...

A 24kg object who’s moment of inertia equals 1/3MR^2 rolls down a ramp and when released...

A 24kg object who’s moment of inertia equals 1/3MR^2 rolls down a ramp and when released from rest it rolls without slipping. It Rolls 3.4 times and it takes 5 seconds to roll down the ramp who’s length is 22.3m. What is the radius of the object, how high was the object when released, if it was a block and slid on a frictionless surface how long would it have taken to get down, what would the coefficient of friction...