A block of mass m(0.5kg) slides along a frictionless track with speed vm. It collides(a perfectly elastic one-dimensional collision) with a stationary block of mass M(0.25kg).Both blocks continue on and up the loop-the-loop(R-radius) Find the minimum value of vm that will allow Block m to circle the loop-the-loop without falling off and the the minimum value of vm that will allow Block M to circle the loop-the-loop without falling off

A block of mass m(0.5kg) slides along a frictionless track with speed vm. It collides(a perfectly elastic one-dimensional collision) with a stationary block of mass M(0.25kg).Both blocks continue on and up the loop-the-loop(R-radius) Find the minimum value of vm that will allow Block m to circle the loop-the-loop without falling off and the the minimum value of vm that will allow Block M to circle the loop-the-loop without falling off

Related questions

Q: Two objects, both with a mass of 1.87 kg are sliding across a horizontal, frictionless surface…

Q: Ball B, moving in the positive direction of an x axis at speed v, collides with stationary ball A at…

Q: In the figure, block 1 of mass m₁ slides from rest along a frictionless ramp from height h = 2.8 m…

Q: A 3 kg sphere makes a perfectly inelastic collision with a second sphere initially at rest. The…

A: Given data: - The mass of sphere 1 is m1 = 3 kg. The speed of the composite system is V = v1/3.

Q: Three particles are placed in the xy plane. A 40-g particle is located at (3, 4) m, and a 50-g…

Q: In the figure, block 1 of mass m, slides from rest along a frictionless ramp from height h = 2.2 m…

A: Let the velocities of the masses m1 & m2 are respectively u1 & u2 before collision and v1…

Q: Two objects, both with a mass of 1.96 kg are sliding across a horizontal, frictionless surface…

Q: The sphere of mass m1 = 5 kg falls from a height H = 1.4 m onto the homogeneous board of negligible…

A: The body of mass m2 rise 1.944m height after the collision.Explanation:Step 1: Step 2: Step 3: Step…

Q: In the figure, block 1 of mass m1 slides from rest along a frictionless ramp from height h = 2.7 m…

A: Ques:

Q: A uniform circular disk of radius R = 36 cm has a hole cut out of it with radius r = 16 cm. The edge…

A: let P be the mass density of the disklet m1 be the mass of the circular disk of radius 16 cmm2 be…

Q: In the figure, block 1 of mass m1 slides from rest along a frictionless ramp from height h = 2.9 m…

A: Given data: Height, h = 2.9m Mass of block 2, m2 = 2m1 Coefficient of kinetic friction, μk=0.2…

Q: None

A: it appears to be a circuit diagram for a voltage regulator circuit using a LM317 voltage regulator…

Q: Two small rubber balls are dropped fromrest at a height h above a hard floor. When the balls are…

Q: A block of mass m(0.5kg) slides along a frictionless track with speed vm. It collides(an elastic…

A: (given) Mass of sliding block = 0.5 kg Mass of stationary block = 0.25 kg R is the radius of the…

Q: A block m starts at the bottom of a ramp of length L and angle 0 at rest. A block with mass 2m…

A: We will use conservation of momentum and conservation of energy,

Q: A block of mass M1 slides with speed vo along a frictionless surface towards the three masses, M2,…

A: Given, mass M1, M2,M3 and M4velocity v0M4<<M3<<M2<<M1 the collision is perfectly…

Q: An electron collides elastically with a stationary hydrogen atom. The mass of the hydrogen atom is…

A: The initial speed of the hydrogen atom is uH = 0 m/sThe mass of the hydrogen atom is mH = 1837me

Q: Ball B, moving in the positive direction of an x axis at speed v, collides with stationary ball A at…

A: Apply the momentum conservation equation along the horizontal direction.…

Q: the figure, block 1 of mass m1 slides from rest along a frictionless ramp from height h = 2.3 m and…

A: In elastic collision kinetic energy as well as momentum conserved In inelastic collision only…

Q: block of mass 20.0 grams is moving to the right on a horizontal frictionless surface with a speed of…

A: In elastic collision momentum as well as kinetic energy remains conserved. Given m1 = 20 g = 20 ×…

Q: Write the scalar equation for the conservation of momentum in the y-direction, where Vby is the…

A: Law of conservation of momentum: When two bodies collide with each other (absence of an external…

Q: Block 1, with mass m1 and speed 5.2 m/s, slides along an x axis on a frictionless floor and then…

A: a)The expression from conservation of momentum,

Q: A stone is dropped at t = 0. A second stone, with 2 times the mass of the first, is dropped from the…

Q: Ball B, moving in the positive direction of an x axis at speed v, collides with stationary ball A at…

A: a. According to the law of conservation of momentum, the initial and final momentum of the system…

Q: Two skateboarders start from rest on a ramp as shown in the figure, roll down and collide…

Q: A mass A of mA = 6.00 kg slides across the ice in the + x direction at a speed of 4.00 m/s. It…

A: Given: The mass of A is 6 kg. The mass of B is 9 kg. The initial speed of the A is 4 m/s in…

Q: In the figure, block 1 of mass m slides from rest along a frictionless ramp from height h = 2.5 m…

A: first mass = m1second mass (m2) = 4 m1h = 2.5 m μk = 0.35stopping distance after collision = d

Q: Given a practice problem with an answer key, but struggling to figure it out: Answer Key: (a) 1.41…

Q: Problem: A puck of mass mp= 2 kg sliding on a frictionless ice surface with initial velocity Vp =…

Q: Block "P" of mass Mp slides along an x-axis on a frictionless floor with initial speed Vp, i = 4…

Q: A bullet of mass m=20 g is fired into a block of mass M=2 kg initially at rest at the edge of a…

A: given:mass of bullet m =20g=20*10-3 Kg mass of block M=2Kg initial velocity of block U = 0 height of…

Question

A block of mass m(0.5kg) slides along a frictionless

track with speed vm. It collides(a perfectly elastic one-dimensional collision) with a stationary block of mass M(0.25kg).Both blocks continue on and up the loop-the-loop(R-radius)

Find the minimum value of vm that will allow Block m to circle the loop-the-loop without falling off and the the minimum value of vm that will allow Block M to circle the loop-the-loop without falling off

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

Step 2

Step 3

Step 4

Trending now

This is a popular solution!

Step by step

Solved in 4 steps

SEE SOLUTION Check out a sample Q&A here

Similar questions

In the figure, block 1 of mass m₁ slides from rest along a frictionless ramp from height h= 2 m and then collides with stationary block 2, which has mass m2- 2m₁. After the collision, block 2 slides into a region where the coefficient of kinetic friction is 0.3 and comes to a stop in distance d within that region. What is the value of distance d if the collision is (a) elastic and (b) completely inelastic? (a) Number i 4.2 (b) Number i 2.1 Unit Unit Frictionless m/s m/s V V
A stone is dropped at t = 0. A second stone, with 5 times the mass of the first, is dropped from the same point at t = 63 ms. (a) How far below the release point is the center of mass of the two stones at t = 420 ms? (Neither stone has yet reached the ground.) (b) How fast is the center of mass of the two-stone system moving at that time? (a) Number i 0.16 (b) Number i -3.44 Units Units m m/s
a Tutoring ve Two objects of equal mass m undergo a completely inelastic collision (see the figure below). Prior to the collision, both masses were moving at the same initial velocity v₁. After the collision, the combined mass moves away at a final speed v₁ = 0.90 v₁. Find the angle between the initial velocity vectors. Your answer should be in degrees: 0: 2m X
In the figure, block 1 of mass mi slides from rest along a frictionless ramp from height h = 2.7 m and then collides with stationary block 2, which has mass m2 = 2m1. After the collision, block 2 slides into a region where the coefficient of kinetic friction k is 0.55 and comes to a stop in distance d within that region. What is the value of distanced if the collision is (a) elastic and (b) completely inelastic?
A ball of mass “m” at rest at the coordinate origin explodes into three equal pieces. At some instant, one piece is on the x-axis at x = 99 cm and another is at x = -56 cm, y =30 cm. How far from the origin is the third piece at that instant? Express your answer in cm.
A 0.0290 kg bullet moving horizontally at 400 m/s embeds itself into an initially stationary 0.500 kg block. (a) what is their velocity just after the collision? m/s ? (b) The bullet embedded block slides 8.0 M on a horizontal surface with a 0.30 kinetic coefficient of friction. Now what is its velocity? m/s ? (c) The bullet embedded block now strikes and sticks to a stationary 2.00 KG block how far does this combination travel before stopping? m?
A puck of mass m, moving at a speed of ₁ collides with an identical mass stationary puck. After the collision, one puck moves off at an angle ₁ with a speed of V₁, and the other puck moves off at an angle 9₂ with a speed of V₂'. a) What are the speeds ₁ and ₂ if ₁ + ₂ = 90°? Express your answers in terms of V₁ and ₁. b) Is the collision inelastic or (totally) elastic? Support your answer with a calculation.
In an elastic collision of particles, one particle is stationary and another one is moving to the particle at speed u. After colliding, particle 1 and 2 moves at two different velocity, say v1 and v2. Why is the angle between v1 and v2 must be 90 degrees if the resulting particles and the initial particles all have the same mass?
Blocks A (mass 2.00 kg) and B (mass 10.00 kg, to the right of A) move on a frictionless, horizontal surface. Initially, block B is moving to the left at 0.500 m/s and block A is moving to the right at 2.00 m/s. The blocks are equipped with ideal spring bumpers, as in Example 8.10 (Section 8.4). The collision is head-on, so all motion before and after it is along a straight line. Find (a) the maximum energy stored in the spring bumpers and the velocity of each block at that time; (b) the velocity of each block after they have moved apart.
In the figure, block 1 of mass m1 slides from rest along a frictionless ramp from height h = 2.4 m and then collides with stationary block 2, which has mass m2 = 4m1. After the collision, block 2 slides into a region where the coefficient of kinetic friction ug is 0.1 and comes to a stop in distance d within that region. What is the value of distance d if the collision is (a) elastic and (b) completely inelastic? Frictionless (a) Number Unit (b) Number i Unit
Two objects, both with a mass of 1.91 kg are sliding across a horizontal, frictionless surface toward each other. If mass 1 has an initial velocity of 3.5 m/s i and mass 2 has an initial velocity of -2.46 m/s i, what is the change in total kinetic energy if they undergo a perfectly inelastic collision? Assume that total momentum is conserved.
. In an experiment, you throw a rubber ball of mass m = 25.0 g onto a block of mass M = 250 g that is initially at rest at the edge of a table of height h = 0.98 m. (Figure) The ball bounces back with a speed of 1.01 m/s, and the block eventually lands at d = 1.02 m from the bottom of the table. What is the speed of the ball, right before it hits the block?