In the given figure below, a 3.0 -kg block is sliding down a 60o-rough incline. The speed of the block is 1.68 m/s at the instant it is 5.25 m from an uncompressed spring located at the other lower end of the incline. The spring has a spring or stiffness constant of 120 N/m and the coefficient of kinetic friction between the block and the incline is 0.35. (a) At what speed (in m/s) will the block strike the spring? (b) What would be the maximum compression (in m) of the spring?

In the given figure below, a 3.0 -kg block is sliding down a 60o-rough incline. The speed of the block is 1.68 m/s at the instant it is 5.25 m from an uncompressed spring located at the other lower end of the incline. The spring has a spring or stiffness constant of 120 N/m and the coefficient of kinetic friction between the block and the incline is 0.35. (a) At what speed (in m/s) will the block strike the spring? (b) What would be the maximum compression (in m) of the spring?

Name: In the given figure below, a 3.0 -kg block is sliding down a 60o-rough
Uploaded: 2024-03-20T06:58:04.000Z
Channel: Bartleby
Description: In the given figure below, a 3.0 -kg block is sliding down a 60o-rough incline. The speed of the block is 1.68 m/s at the instant it is 5.25 m from an uncompressed spring located at the other lower end of the incline. The spring has a spring or stiff

College Physics

10th Edition

ISBN:9781285737027

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Introduction

Section: Chapter Questions

Problem 43P: A high fountain of water is located at the center of a circular pool as shown in Figure P1.47. Not...

See similar textbooks

Related questions

Q: An object, whose mass is 0.580 kg, is attached to a spring with a force constant of 112 N/m. The…

A: (a) The magnitude of the spring force can be determined as follows.

Q: A relaxed spring of length 0.15m stands vertically on the floor; its stiffness is 100ON/m. You…

A: Given data: Length l=0.15m Stiffness constant k =1000N/m Mass of the block m =0.4 kg Height h =0.8m

Q: In the given figure below, a 3.5-kg block is sliding down a 60°-rough incline. The speed of the…

A: We have a block of mass m=3.5 kg which is sliding down a 60o incline with an initial velocity u=1.86…

Q: A block of mass m = 2.00 kg is attached to a spring of force constant k = 450 N/m as shown in the…

A: Let the speed of the block as it passes through the equilibrium point be denoted as vTotal energy of…

Q: In the given figure below, a 3.0 -kg block is sliding down a 60°-rough incline. The speed of the…

A: Given:- The mass of the block is m = 3 kg The distance between the spring is s= 5.25 m The initial…

Q: A 67kg trampoline artist jumps vertically upward with a speed of 4.7m/s. If the trampoline, 3.7m…

Q: A 68kg trampoline artist jumps vertically upward with a speed of 4.2m/s. If the trampoline, 2.6m…

Q: A 4.020-gram bullet is projected horizontally to a block of timber that rest on a horizontal floor.…

A: Given: The mass of the bullet is 4.020 g. The maximum displacement is 0.05 m. The spring constant is…

Q: In the given figure below, a 3kg block is sliding down a 60 degree rough incline. The speed of the…

A: Answer: 1.18 meters

Q: 2. a- What is the force generated by the spring when it is compressed 6.00 cm and have spring…

A: Given that, The spring constant of the spring, k = 5600 N/cm = 56 N/m The compression in the spring,…

Q: In the given figure below, a 3.0 -kg block is sliding down a 60 degrees-rough incline. The speed of…

A: Since you have posted a question with multiple sub-parts, we will solve first three sub parts for…

Q: In the given figure below, a 3.5 -kg block is sliding down a 60°-rough incline. The speed of the…

A: Given: θ = 600m = 3.5 kgu = 1.86 m/ss = 5.52 mμk = 0.45 To Find: speed of block that strike the…

Q: A block having a mass of 0.60 kg is given an initial velocity of 2.2 m/s to the right and collides…

A: Given that the mass of the block and initial velocity of the block and also given the force constant…

Q: • A 3.55-g bullet embeds itself in a 1.47-kg block, which is attachedto a spring of force constant…

Q: A 4.020-gram bullet is projected horizontally to a block of timber that rest on a horizontal floor.…

A: The maximum displacement of the block is when the kinetic energy of bullet was completely…

Q: In the given figure below, a 3.0 -kg block is sliding down a 60°-rough incline. The speed of the…

Q: A 1100-kg car moving on a horizontal surface has speed v = 50 km/h when it strikes a horizontal…

A: Given: Mass of the car, m = 1100 kg Speed of the car, v = 50 km/hr Distance traveled before coming…

Q: A dart of mass 0.100 kg is compressed against the spring of a toy dart gun. The spring (with…

A: The dart's mass is, m=0.1 kg The displacement of the spring is, x=10 cm=0.10 m The spring constant…

Q: • A 0.454-kg block is attached to a horizontal spring that is atits equilibrium length, and whose…

Q: A 10.0-g bullet is fired into, and embeds itself in, a 2.00-kg block attached to a spring with a…

Q: Suppose a string (with a spring constant of 600 N/m) is compressed 0.4 m. If a projectile of mass…

Q: Block A has mass 1.00 kg, and block B ha nass 3.00 kg. The blocks are forced ogether, compressing a…

A: Given values:- Mass of block A,(ma)=1 kg ----(1) Mass of block B,(mb)=3 kg ----(2) Velocity of block…

Q: A gymnast of mass 52.0 kg is jumping on a trampoline. She jumps so that her feet reach a maximum…

Q: A 57kg trampoline artist jumps vertically upward with a speed of 4.1m/s. If the trampoline, 3.5m…

A: Write the given values with the suitable variables. m=57 kgu=4.1 m/sh=3.5 mk=5.3×104 N/m Here, m, u,…

Q: A box containing a pebble is attached to an ideal horizontalspring and is oscillating on a…

A: To determine: The kinetic energy increase decrease or remain same. Concept: Law of conservation of…

Q: A 1800 kg trck mouns an B4 Km/h when it Strkes a herrzontal coiled Spriug asod is brought to rest…

A: Given : m = 1800 kg vi = 36 km/h = 36(1000/3600) = 10 m/s xf = 2 m

Q: In the given figure below, a 3.5-kg block is sliding down a 600-rough incline. The speed of the…

Q: When you stand on a trampoline, the surface depresses below equilibrium, and the surface pushes up…

A: Write the variable with the given values. The restoring force is given as, Here, k denotes the…

Q: A mass attached to a spring is pulled downward and released. The displacement of the mass from its…

A: Length of spring when it is shortest =13 cm Length of spring when it is longest =23 cm Frequency of…

Q: You have been asked to design a "ballistic spring system" to measure the speed of bullets. A bullet…

A: From conservation of momentum is, mBvB=mB+Mvf ......(i) From conservation of energy,…

Q: In the given figure below, a 3.0 -kg block is sliding down a 60o-rough incline. The speed of the…

Q: In the given figure below, a 3.0 -kg block is sliding down a 60 degrees- rough incline. The speed of…

Q: In the given figure below, a 3.5-kg block is sliding down a 60°-rough incline. The speed of the…

A: fK =nkinetic frictionN = Normalmg = weightFnet force on block Fnet = mgsinθ - fK= mgsinθ -μNFnet =…

Q: In the given figure below, a 3.5 -kg block is sliding down a 60o-rough incline. The speed of the…

A: According to the work-energy theorem, work done by all the force is equal to change in kinetic…

Q: In the given figure below, a 3.0 -kg block is sliding down a 60 degrees- rough incline. The speed of…

Q: what speed (in m/s) will the block strike the spring? (b) What would be the maximum compression (in…

Q: Initially sliding with a speed of 4.3 m/sm/s, a 2.0 kg block collides with a spring and compresses…

Q: In the given figure below, a 3.5 -kg block is sliding down a 600-rough incline. The speed of the…

Q: A bumper on an automobile must be able to stop a car with 400,000J of kinetic energy. What should…

A: Kinetic energy is K.E = 400000 J Distance within the car must be stopped is x = 0.08 m

Q: In the given figure below, a 3.0 -kg block is sliding down a 60 degrees-rough incline. The speed of…

Q: A spring for industrial use, whose elastic constant is 375N / M and 70 grams, carries a mass of 1kg.…

A: given k = 375 N/m M = 1 kg

Q: In the given figure below, a 3.0 -kg block is sliding down a 60 degrees- rough incline. The speed of…

Q: If a spring has extension of 4 cm when a mass hung is 200 g. Find out its (a) spring constant and…

A: Write the given values with the suitable variables. x=4 cm=0.04 mm=200 g=0.2 kg Here, x is the…

Concept explainers

Simple harmonic motion

Simple harmonic motion is a type of periodic motion in which an object undergoes oscillatory motion. The restoring force exerted by the object exhibiting SHM is proportional to the displacement from the equilibrium position. The force is directed towards the mean position. We see many examples of SHM around us, common ones are the motion of a pendulum, spring and vibration of strings in musical instruments, and so on.

Simple Pendulum

A simple pendulum comprises a heavy mass (called bob) attached to one end of the weightless and flexible string.

Oscillation

In Physics, oscillation means a repetitive motion that happens in a variation with respect to time. There is usually a central value, where the object would be at rest. Additionally, there are two or more positions between which the repetitive motion takes place. In mathematics, oscillations can also be described as vibrations. The most common examples of oscillation that is seen in daily lives include the alternating current (AC) or the motion of a moving pendulum.

Topic Video

Question

100%

In the given figure below, a 3.0 -kg block is sliding down a 60^o-rough incline. The speed of the block is 1.68 m/s at the instant it is 5.25 m from an uncompressed spring located at the other lower end of the incline. The spring has a spring or stiffness constant of 120 N/m and the coefficient of kinetic friction between the block and the incline is 0.35. (a) At what speed (in m/s) will the block strike the spring? (b) What would be the maximum compression (in m) of the spring?

Expert Solution

This question has been solved!

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

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Step by step

Solved in 3 steps with 3 images

SEE SOLUTION Check out a sample Q&A here

Follow-up Questions

Read through expert solutions to related follow-up questions below.

Follow-up Question

Can you explain how did you get the 8.6025 m/s

Solution

by Bartleby Expert

SEE SOLUTION

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.

Recommended textbooks for you

College Physics

Physics

ISBN:

9781285737027

Author:

Raymond A. Serway, Chris Vuille

Publisher:

Cengage Learning

College Physics

Physics

ISBN: