k An assembly of blocks sits on a very smooth floor (see Figure). The bottom block (mass M) is connected to a spring. The top block (mass m) rests on the bottom block. There is a static friction interaction between the blocks; however, the bottom block slides smoothly along the floor. If the spring constant k is 94.7 N/m, M = 1kg, m = 0.5 kg and u, is 0.20 what is the maximum oscillation amplitude possible without the top block slipping? (PUHQ0445)

k An assembly of blocks sits on a very smooth floor (see Figure). The bottom block (mass M) is connected to a spring. The top block (mass m) rests on the bottom block. There is a static friction interaction between the blocks; however, the bottom block slides smoothly along the floor. If the spring constant k is 94.7 N/m, M = 1kg, m = 0.5 kg and u, is 0.20 what is the maximum oscillation amplitude possible without the top block slipping? (PUHQ0445)

College Physics

10th Edition

ISBN:9781285737027

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter7: Rotational Motion And The Law Of Gravity

Section: Chapter Questions

Problem 54AP: A 0.400-kg pendulum bob passes through the lowest part of its path at a speed of 3.00 m/s. (a) What...

See similar textbooks

Similar questions

The system is released from rest with the spring initially stretched 3 in. Calculate the velocity v of the cylinder after it has dropped 0.5 in. The spring has a stiffness of 6 lb/in. Neglect the mass of the small pulley. k = 6 lb/in. 100 lb
You have an apple that you would like to weigh, but you don’t have a scale. You do have a slinky and a quick internet search tells you that it has a spring constant of 10.0 N/m. You hang the apple from the slinky and measure that the slinky stretches 9.92 cm. What is the mass of the apple?
A Physic student has a 0.25 m length of string. She attached one end to the ceiling and the other end to a toy plane. If the toy plane weighs 0.5 kg, find the maximum speed of the plane and the angle that it makes with the vertical if the maximum tension in the string before it snaps is 10 N.
A spring with spring constant 94 N/m and rest length 27.2 cm is used to pull a wooden block of weight 437 N horizontally across a tabletop at constant velocity. The coefficient of kinetic friction between the block and the table is 0.09, while the coefficient of static friction is 0.69. What is the length of the spring while it is pulling the block (in meters)?
An 8.0-cm-long spring is attached to the ceiling. When a 2.3 kg mass is hung from it, the spring stretches to a length of 16 cm. How long is the spring when a 3.0 kg mass is suspended from it? y=
Answer either this question or the next. L M Ax 3. A pendulum of length L = 1.0 meter and bob with mass m = 1.0 kg is released from rest at an angle 30° from the vertical. When the pendulum reaches the vertical position, the bob strikes a mass M = 3.0 kg that is resting on a frictionless table of height h = 0.85 m. You may assume the string is massless, and drag is negligible. a. Calculate the speed of the bob just before it strikes the box (i.e., when the pendulum string hangs straight down). b. Calculate the speeds of the bob and the box just after they collide elastically. c. Determine the impulse that acts on the box during the collision. d. Determine how far from the bottom edge of the table, Ax, the box lands.
To measure the static friction coefficient between a 1.40-kg block and a vertical wall, a spring (k = 770 N/m) is attached to the block, is pushed on the end in a direction perpendicular to the wall until the block does not slip downward (see figure). If the spring is compressed by 0.048 m, what is the coefficient of static friction?
Two springs, with force constants k1=140N/m and k2=275N/m, are connected in series, as shown in the figure. When a mass m=0.50kg is attached to the springs, what is the amount of stretch, x?
A clock has a pendulum that performs one full swing every 1.14 s (back and forth). The object at the end of the pendulum weighs 10.0 N. What is the length of the pendulum?
A pulley-and-cable assembly supports a block W and it requires a force at P for equilibrium. Since block W has a mass of 30kg (g=9.806), calculate the force of the spring CD and the magnitude of force P.
Hanging Mass: A block of mass 14.3 kg is connected to a light cord of length 444.3 cm and a spring with an equilibrium length of 36.8 cm. The block hangs motionless as shown in the figure. The spring has a sprìng constant of 2937 N/m. As the block hangs in equilibrium, the spring is horizontal and the cord makes an angle of 55 ° with respect to vertical. k M (a) What is the tension in the cord? (b) How far is the spring stretched from its equilibrium length?
A 45kg Box is at rest on a 2 meter long board. That end of the board is slowly raised at an incline until the box starts sliding. This point is at 34 degrees, held constant. Given that the kinetic friction is 0.50 N. Please help me solve how long will the box take to reach the bottom of the board?