1. Am = 0.50 kg cart attached to a spring is pulled a distance D = 0.20 m to the right from the spring's equilibrium position. The cart is then released at t = 0.00 s. Assume friction and drag are negligible. For all questions, show your work so I can follow your reasoning. a. The cart first arrives at its farthest left position at time t = 1.75 s. What is the spring constant of the spring? Immmm5 equilibrium position of cart 109 b. What is the cart's maximum speed during its motion? ( c. What is the cart's velocity at t = 0.40 s? (Don't forget to put your calculator in radians mode for this!) t

1. Am = 0.50 kg cart attached to a spring is pulled a distance D = 0.20 m to the right from the spring's equilibrium position. The cart is then released at t = 0.00 s. Assume friction and drag are negligible. For all questions, show your work so I can follow your reasoning. a. The cart first arrives at its farthest left position at time t = 1.75 s. What is the spring constant of the spring? Immmm5 equilibrium position of cart 109 b. What is the cart's maximum speed during its motion? ( c. What is the cart's velocity at t = 0.40 s? (Don't forget to put your calculator in radians mode for this!) t

Related questions

Q: 2. A spring is stretched 3 in by a 5-b weight. Let the weight be pulled down 4 in below equilibrium…

A: Given, W=5 lb∆y=3 iny=4 inv=8 fps

Q: Part A The spring in the figure has a spring constant of 1200 N/m. It is compressed 13.0 cm , then…

A: Given Spring constant k = 1200 N/m Compression x = 13 cm = 0.13 m Mass = 200 g = 0.2 kg

Q: Determine the acceleration of block B at this instant if it is originally at rest. Neglect friction.

A: Given: Mass of block A is mA=20 kg Mass of block B is mB=30 kg Spring constant is k=30 N/m Stretched…

Q: I. For the following problems, set up the differential equation that describes the motion under the…

Q: 6. SERCP11 5.5.P.024. R My Notes Ask Your Teacher V Two blocks are connected by a light string that…

A: According to energy’s conservation law, total energy of the system is zero. So, Here, Ki and Kf are…

Q: A student measures the force required to stretch a spring by various amounts and makes the graph…

Q: If possible, express your final answer in the form u(1) = Rcos(@,t – 8). 4. A 10-kg mass is attached…

Q: Bobby and Thomas take a 16.1 pound sled to a frozen pond. The sled is initially at rest on the ice.…

A: Given: Mass of sled (M) = 16.1 pounds. Mass of Bobby (mb) = 96.6 pounds. Mass of Thomas (mt) = 112.7…

Q: There is a 2.69 kg box at three points in time. The box starts with 450 Joules of mechanical energy.…

A: mass of box (m) = 2.69 kg Total mechanical energy (E) = 450 Joules

Q: A 2.0-kg mass and a 3.0-kg mass are on a horizontal frictionless surface, connected by a massless…

Q: 7. Given the graph below answer the follow- ing questions. a. What is the value of u for this…

Q: 1. Consider a damped spring-mass system with m = 1kg, k = 4 kg/s^2 and b = 5 kg/s. a. Write the…

A: Problem based on spring mass system.

Q: I. For the following problems, set up the differential equation that describes the motion under the…

Q: Suppose that during each step, the leg of the studen swings through a total distance of 2.0 m. At…

Q: A 0.454-kg block is attached to a horizontal spring that is at its equilibrium ength, and whose…

A: GivenMass of block, m1=0.454 kgBlock is at restInitial speed of block, u1=0Spring constant, k=24…

Q: Consider the force exerted by a spring that obeys Hooke's law. Find U(xt) – U(xo) = – S" F, · dš. |…

Q: Assume M=500g, 0=60 degrees, the co-efficient of static friction is 0.5, and the co-efficient of…

A: mass of the box is, M = 500g angle of inclination is, θ=60o coefficient of static friction is,…

Q: 1. A spring has a constant of 60.5 N/m and it is stretched with a force of 10.5 N. How far will it…

A: Given: Spring Constant,k=60.5N/mForce,F=10.5N Hooke's law is a rule of elasticity developed by the…

Q: Consider the diagram at the right in answering the next three questions. Five locations along a…

Q: A 2.49 kg object on a frictionless horizontal surface osciflates at the end of a spring with an…

Q: a) What is the speed of the car at point B? 39.6 m/s b) What is the speed of the car at point C?…

Q: The diagram below shows the position-time graph for a mass that is oscil- lating vertically on the…

Q: In the image is a diagram showing the position-time graph for a mass that is oscillating vertically…

A: Le k be spring constant (a)At point 2 Only force acting on it is spring force F=kX Here X=0 So…

Q: 90 N 105 degrees 45 degree 150N 65N

Q: 5. A mass of 4.0 kg is in motion along a horizontal, frictionless surface with a speed of 2.5 m/s…

A: Giventhe mass of ball = 4 kg velocityof ball = 2.5 m/sSpring constant=1250N/m

Q: - Two sets of swings are shown at right. If the children on the swings are of equal weights, the…

Q: Problem 10.71 A 21 kg box slides 4.0 m down the frictionless ramp shown in the figure(Figure 1),…

Q: The relationship between the length of a pendulum L and the time T for one complete oscillation can…

A: (a) Refer to the table below : N is the total number of data values.

Q: A block attached to a vertical spring oscillates up and down, the length of a spring is shown below.…

Question

1. Am = 0.50 kg cart attached to a spring
is pulled a distance D = 0.20 m to the
right from the spring's equilibrium
position. The cart is then released at t =
0.00 s. Assume friction and drag are
negligible. For all questions, show your
work so I can follow your reasoning.
a. The cart first arrives at its
farthest left position at time t = 1.75 s. What is the spring constant of the
spring?
Immmm5
for (3) arte
0
equilibrium
position
of cart
b. What is the cart's maximum speed during its motion? (
D
woy wallot
c. What is the cart's velocity at t = 0.40 s? (Don't forget to put your calculator in
radians mode for this!) t

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: Given

VIEW

Step 2: Finding the spring constant

VIEW

Step 3: Maximum speed of the cart

VIEW

Solution

VIEW

Step by step

Solved in 4 steps

SEE SOLUTION Check out a sample Q&A here

GET THE APP

About FAQ Academic Integrity Sitemap Document Sitemap

Contact Bartleby Contact Research (Essays)High School Textbooks Literature Guides Concept Explainers by Subject Essay Help Mobile App

GET THE APP

Privacy

Your CA Privacy Rights

Your NV Privacy Rights

About Ads

Manage My Data

bartleby, a Learneo, Inc. business