A block of mass m = 265 g is attached to a wall by a spring (k = 22N/m) and is at rest on a horizontal floor, the coefficient of friction is 0.20. The spring is not deformed. Another identical block moves to the wall with a speed of 3.0 m/s when it sticks to the first block. What is the maximum distance of the spring's compression? Express your answer with the appropriate units. Imax = Value Units

A block of mass m = 265 g is attached to a wall by a spring (k = 22N/m) and is at rest on a horizontal floor, the coefficient of friction is 0.20. The spring is not deformed. Another identical block moves to the wall with a speed of 3.0 m/s when it sticks to the first block. What is the maximum distance of the spring's compression? Express your answer with the appropriate units. Imax = Value Units

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter5: Energy

Section: Chapter Questions

Problem 35P: A 0.250-kg block along a horizontal track has a speed of 1.50 m/s immediately before colliding with...

See similar textbooks

Similar questions

A 0.250 - kg block along a horizontal track has a speedof 1.50 m/s immediately before colliding with a light springof force constant 4.60 N/m located at the end of the track.(a) What is the spring’s maximum compression if the trackis frictionless? (b) If the track is not frictionless, would thespring’s maximum compression be greater than, less than, orequal to the value obtained in part (a)?
The mass on the end of a pendulum is 0.04 kg and hangs from a string of length 1.2 m. The pendulum is raised to point Q, which is 0.10 m above its lowest position, and released so that it oscillates between the points P and Q as shown below Draw free-body diagrams in the blue circle showing and labeling the forces acting on the bob in the situation described a. When it is at point P
The mass on the end of a pendulum is 0.04 kg and hangs from a string of length 1.2 m. The pendulum is raised to point Q, which is 0.10 m above its lowest position, and released so that it oscillates between the points P and Q as shown below On the figures below, draw free-body diagrams showing and labeling the forces acting on the bob in each of the situations described a. When it is at point P
A 1200-kgkg car moving on a horizontal surface has speed vvv = 60 km/hkm/h when it strikes a horizontal coiled spring and is brought to rest in a distance of 2.6 mm . Part A What is the spring stiffness constant of the spring? Express your answer to two significant figures and include the appropriate units.
Can this mass-spring system be analyzed as a system with a single equivalent spring? Justify your answer Use the following picture
A 600 lb block slides down an incline having a slope of 3 vertical to 4 horizontal. It starts from rest and after moving 4 feet, strikes a spring whose modulus is 100 lb per ft. If the coefficient of kinetic friction is 0.20, find the maximum velocity of the block. PLEASE SOLVE USING THE FORMAT SOLUTION BELOW.
A physical pendulum consists of a disk of radius R = 2 m, whose mass is homogeneously distributed and is equal to 6 kg, is suspended just at a point on its perimeter. The puck is displaced from its equilibrium position. until it forms an angle θ = π/16 with respect to the vertical and is then released. find: a) The period of the system. b) Make a graph of angular position v/s time where the amplitude, initial phase and system period.
a) Use energy conservation to find the amplitude of the motion. b) Use energy conservation to find the maximum speed of the glider. c) What is the angular frequency of the oscillations? (express in rad/s)
A gymnast swings on the high bar as shown in the figure. Starting from rest directly over the bar, he swings around the bar while keeping his arms and legs outstretched. Treating the gymnast as though his entire mass were concentrated at a point y=0.87 m from the bar, determine his speed as he passes under the bar at position A. Note that you do not need know his mass to solve this problem. It is asking for the units in m/s
(SOLVE JUST PART (C) ) A 1.00-kg glider attached to a spring with a force constant 9.0 N/m oscillates on a frictionless, horizontal air track. At t = 0, the glider is released from rest at x = -2.70 cm (that is, the spring is compressed by 2.70 cm). (a) Find the period of the glider's motion = 2.094 (b) Find the maximum values of its speed and acceleration. speed= 8.1*10**-2 m/s acceleration= 0.243 m/s2 (c) Find the position, velocity, and acceleration as functions of time. (Where position is in m, velocity is in m/s, acceleration is in m/s2, and t is in s. Use the following as necessary: t.) x(t)= v(t)= a(t)=
A spring has a force constant of 150 N/cm (use integral calculus to solve this problem)a) How much work is needed to extend it 7.6 mm from its relaxed exposure?b) how much work is required to turn it another 7.6 mm?c) How much work does the force of the spring do to oscillate the system of simple harmonic motion from 3.5 millimeters to 2.8 mm?
Fish are hung on a spring scale to determine their mass (most fishermen feel no obligation to report the mass truthfully). a. What is the force constant (in N/m) of the spring in such a scale if it stretches 8.50 cm for a 14.0 kg load? b. What is the mass (in kg) of a fish that stretches the spring 5.50 cm? c. How far apart (in mm) are the half-kilogram marks on the scale?