A mass-spring system is set up so that the mass oscillates in the horizontal. The mass is 0.83_kg, and the spring has constant 44 N/m. The mass is pulled back so that the spring stretches 0.78_m, and then the mass is released. Find the speed of the mass when it is located at 0.39_m. (Assume there is no friction between the mass and the tabletop.) 4.559_m/s 4.918_m/s 4.181 m/s O 4.722_m/s 4.026_m/s 4.382_m/s

A mass-spring system is set up so that the mass oscillates in the horizontal. The mass is 0.83_kg, and the spring has constant 44 N/m. The mass is pulled back so that the spring stretches 0.78_m, and then the mass is released. Find the speed of the mass when it is located at 0.39_m. (Assume there is no friction between the mass and the tabletop.) 4.559_m/s 4.918_m/s 4.181 m/s O 4.722_m/s 4.026_m/s 4.382_m/s

Name: A mass-spring system is set up so that the mass oscillates in the hor
Uploaded: 2024-03-20T06:58:04.000Z
Channel: Bartleby
Description: A mass-spring system is set up so that the mass oscillates in the horizontal. The massis 0.83_kg, and the spring has constant 44 N/m. The mass is pulled back so that thespring stretches 0.78_m, and then the mass is released. Find the speed of the ma

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter15: Oscillations

Section: Chapter Questions

Problem 15.1CYU: Check Your Understanding Why would it hurt more if you snapped your hand with a ruler than with a...

See similar textbooks

Similar questions

Check Your Understanding Why would it hurt more if you snapped your hand with a ruler than with a loose spring, even if the displacement of each system is equal?
The spring is in unstretched condition (free length) when0 = 0. Neglecting the weight of the elements, for which value of force "P", the system is in equilibrium.. mm
When a 0.106 kg mass is suspended at rest from a certain spring, the spring stretches 4.30 cm . Find the instantaneous acceleration of the mass when it is raise 6.10 cm, compressing the spring 1.80 cm.
wwwwwn A mass M is attached to a spring, which exerts no force at position C (equilibrium). The spring is compressed until the mass is at position A. Then the mass is released from rest. At what position is the velocity at a maximum AND positive? At what position is the acceleration at a maximum AND positive? O Velocity C, Acceleration E O Velocity C, Acceleration A O Velocity A, Acceleration C O Velocity E, Acceleration C
A 50 kg block moves on a 35º inclined plane with a friction coefficient of 0.17. The body It is attached to a spring whose elastic constant is 1200. N/m. With the above data, resolve the following: -How much does the spring stretch when it comes to its rest state? Express the result in centimeters.
A mass-spring system is set up so that the mass oscillates in the horizontal. The mass is 0.87 kg, and the spring has constant 40 N/m. The mass is pulled back so that the spring stretches 0.79_m, and then the mass is released. Find the speed of the mass when it is located at 0.33_m. (Assume there is no friction between the mass and the tabletop.) 4.58_m/s 4.362_m/s 5.488_m/s D. 4.867_m/s 5.321 m/s 5.049_m/s А. В. Е. С. F.
3. One end of a massless spring is attached to a wall & another end is attached to a block of mass m = 20 g (as shown in Fig. 2). When the block is stretched horizontally to a distance 5 cm from its rest position, the force acting on the block is 10 N. %3D wwww m Fig. 2 (a) 6 Calculate the spring constant. (b) Now consider one end of the same spring system is attached to the ceiling. Take the hanging end point of the spring as reference to the gravitational potential. When the block is attached to the hanging end point of the spring, it extends a distance d. Calculate the value of d. Also calculate the block's total potential energy at this position. (c) Calculate the time period & angular frequency for both the vertical and the horizontal oscillations.
3/142 The system is released from rest with the spring initially stretched 75 mm. Calculate the velocity v of the cylinder after it has dropped 12 mm. The ba spring has a stiffness of 1050 N/m. Neglect the mass of the small pulley. s A oibod lo soboti iod k = 1050 N/m An codmun The a.0 45 kg
Jum The mass of the block depicted in the image is 2.94 kg. The spring has a spring constant of 77.2 N/m. The coefficient of static friction between the block and the floor is 0.735. Assume that the spring makes no contact with the floor and therefore friction only acts on the block. How far must the block and spring assembly be compressed to just barely overcome the force of static friction acting on the block? Report your result in meters.
You have a spring witk k+388 N/m When no extrenal forceis applied on it, the length of the spring is 4.5 cm When you exert F+ 8.5 N of force to stretch this spring,what is the length of the stretched spring in the unit of cm?
A spring with 1 kg mass was initially attached in the ceiling and undeformed. The mass was released from rest. Due to its weight, the spring stretched for 10s with spring constant of 1N/m. Determine the velocity of the mass after 10s.
A block with a mass of 15kg is attached to a spring on it's left and right sides .the left spring has a spring constant of 50 n/m .the right spring has constant of 60n/m .findthe acceleration of the block when it's over 1 m to the left. There is a coefficient of friction of 0.6.? I need help