A spring suspended from a ceiling has a constant of 12 Ib/ft. An 8 lb weight is placed on the spring, and when equilibrium is reached, the weight is raised 5 in. above the equilibrium position and dropped. Solve for the displacement (x) of the weight at any time (t). Type or paste an image of your solutions below:
Q: In the figure, two springs are attached to a block that can oscillate over a frictionless floor. If…
A: The formula for the frequency of a spring on the left-hand side is: The formula for the frequency…
Q: The graph shows foce versus displacement for three different springs. Rank in order, from largest to…
A: according to hooks law restoring force on a spring is F = -kx where k is spring constant x is…
Q: A 63 kg student is standing atop a spring in an elevator that is accelerating upward at 3.5 m/s´ The…
A: mass = 63 kg a = 3.5 m/s2k = 2800 N/m Normal force in upwards accelerating elevator = m (g+a) = 63…
Q: With what period T will the block oscillate? Express your answer in seconds using three significant…
A: Given data *The given mass of the block is m = 500 g *The given force constant is k = 25.0 N/m *The…
Q: A load of 43 N attached to a spring that is hanging vertically stretches the spring 0.19 m. What is…
A: The load which causes the elongation/deforming force F=43 N The restoring force has a magnitude of…
Q: Assume you have two springs, and you know that Spring #1 is stiffer than Spring #2. You run an…
A: Resistance = ρLA Since Resistance is proportional to L , R1>R2 Resistance=VI So thre slope of the…
Q: 600 lb block slides down an incline having a slope of 3 vertical to 4 horizontal. It starts from…
A: Given: Mass = 600 lb or 272.15 kg. Slope = 34 Spring modulus = 100 lb per feet or 45.35 kg per…
Q: Consider the motion of a spring that is subject to a frictional force. We assume that the frictional…
A: SOlution: To derive the equation for the sprng mass system with friction
Q: The graph in the accompanying figure shows the magnitude of the force exerted by a given spring as a…
A:
Q: Direction: Write an equation using each of the following vallues mand n A weight is hanging at rest…
A: Equation of motion of particle moving in SHM y = A sin (wt +φ) A = amplitude w = angular frequency =…
Q: A measure of how fast the block shown below will oscillate when the system is set in motion is given…
A:
Q: A 0.51-kg block attached to a spring with force constant 140 N/m is free to move on a frictionless,…
A: (a) Calculate the magnitude of force on the block. |Fs|=kx Here, k is the spring constant and x is…
Q: right
A: Given: The spring constant K1 =10 N/m The spring constant K2 =20 N/m The left spring is compressed…
Q: The graph to the right shows position x(t) as a function of time for the three different mass-spring…
A: The relation between energy and the amplitude is EαA2 Energy is proportional to square of amplitude…
Q: You want to create the art installation in figure C, in which a block of mass 29.8 kg is hung with…
A:
Q: A 4.0 kg-block attached to a 20 N/m-spring constant spring moves on a frictionless horizontal…
A: Given data: Mass (m) = 4.0 kg Spring constant (k) = 20 N/m Amplitude (A) = 6.0 m Required: Distance…
Q: You hang different masses M from the lower end of a vertical spring and measure the period T for…
A:
Q: To use the equations of equilibrium to analyze a system containing a wedge and to determine the…
A: Using spring combo Value of p= 397 N
Q: A mass with a weight (Fg) of 8360.0 N is hanging on a spring at rest. If the spring constant is k =…
A:
Q: A 67.65 cm-long spring is displaced by 15.29 cm after 17.58 N is applied. What would be the…
A:
Q: A toy gun uses a spring with a force constant of 425 N/m to propel a 14.0 g steel ball. The spring…
A:
Q: If x is the displacement from the equilibrium position in feet, the differential equation that…
A:
Q: 2. The graph shows foce versus displacement for three different springs. Rank in order, from largest…
A:
Q: If a spring constant of 174 N/m is stretched to a distance of 0.93m, what is the amount of force…
A: Given Stiffness of the spring k =174 N/mDeflection of the spring x =0.93 m
Q: On a plot of Applied Force (vertical axis) vs. Distance Stretched (horizontal axis), what represents…
A: Given data: The graph of Applied force vs distance stretched Required: Spring constant (k)
Q: Mass Weight Displacement (g) (N) 0 0 100 0.98 |(x) O 0.030
A:
Q: The mass on the end of a pendulum is 0.04 kg and hangs from a string of length 1.2 m. The pendulum…
A:
Q: Two springs with spring constant k1 and k2 are connected in parallel and series, as shown in Figures…
A: First calculte spring constant for both parallel and series combination and then time period for…
Q: You hang a 138 gram mass from a vertical spring, and it stretches 6.0 cm from its equilibrium…
A:
Q: Find the components of the given vector. A vertical spring stretches 7.9 cm when a 1.2 kg block is…
A: Given data Mass ( m ) = 1.2 kg Streched length ( x ) = 7.9 cm = 0.079 m Required : Spring…
Q: Please hand by written ans. A vertical 27-cmcm-long spring has its bottom end attached to the…
A: (1) Original length = 27 cm Compressed length = 22 cmCompression (x) = 5 cm = 0.05 mMass of the box…
Q: Set the controls as follows. x0 = 6 cm k = 80 N/m m = 4 kg Now hit start and observe the motion of…
A: The given problem is based on the Simple harmonic motion. 'When body repeat its motion after regular…
Q: A restoring force F acts on a system with a displacement whose magnitude is 'x. In which of the…
A:
Q: The mass on the end of a pendulum is 0.04 kg and hangs from a string of length 1.2 m. The pendulum…
A: Given data: The mass of bob is m=0.04 kg. The length of string is l=1.2 m. The rise in bob is…
Q: A horizontal block spring oscillator of mass 10 kg on a frictionless table and a spring constant k =…
A: The expression of the displacement (x) and angular frequency w and frequency (n) in S.H.M along the…
Q: Spring stretches 6 inches with a weight attached equaling 2 pounds. When the spring is released 5…
A: Given : Mass added, m = 2 pounds Spring stretched, x = 6 inch = 0.5 ft
Q: V = 0 Lecse M X = 0 (d) In the figure above, the block of mass M has come to rest at a location to…
A: The mass of the block = MThe spring constant = kThe velocity of the block = v = 0The coefficient of…
Q: A spring has a length of 0.298 m when a 0.300 kg mass hangs from it, and a length of 0.750 m when a…
A:
Q: Based on the graph below, what is the spring constant of the spring? Force vs Cumulative Elongation…
A:
Q: In the series spring arrangement total deflection of the spring is calculated from which one of the…
A: The series connection of the spring is the connecting all the spring in series. All the springs are…
Q: Consider a system of two springs, with stiffnesses k, and k2 and arranged in parallel as shown in…
A:
Q: A ball is held at rest at some height above a horizontal surface. Once the ball is released it…
A: Given that: Time taken for first fall=T1Fraction of energy lost per each collision=p (0<p<1)
Q: What is the magnitude of the force required to extend the same spring by 80 mm? (in units of N)
A: In the given question We have to determine the magnitude of force.
Q: The SI unit of the spring constant k is (You may need to check your textbook for the answer.) N/m…
A: The Hooke’s law,
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 1 images
- i need help to find the answer and the formula and not the answer from chegg used please A 2.0-kg mass is attached to a vertical spring. The mass is held in place with the spring relaxed, and then released from rest. As the mass falls, it stretches the spring. If the spring has a force constant of 100 N/m, how fast is the mass moving after is has descended 3.0 cm? Ignore air resistance. Type in your numeric answer, and then explain how you determined it.Please give explanation on what's the right answer.A block of mass M is attached to the lower end of a vertical spring. The spring is hung from the ceiling and has force constant value k. The mass is released from rest with the spring initially unstretched. The maximum tension produced in the length of the spring will be _____.a. 2Mg/kb. 4Mg/k c. Mg/2k d. Mg/kA measure of how fast the block shown below will oscillate when the system is set in motion is given by the formula k1 + k2 where k1 and k2 indicate the stiffness of the springs and m is the mass of the block. Rationalize the right-hand side and restate the formula. W = Lwi ww
- Write an equation for the force constant of the spring in terms of the variables from the problem statement (m, d, and θ). Use g for the gravitational constant. (Neglect friction) (d = distance spring stretched)Part A Ignoring the mass of the spring, what is the mss mmm of the fish? Express your answer in kilograms.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.
- A block with mass 0.50 kg is forced against a horizontal spring of negligible mass, compressing the spring a distance of 0.20 m (see figure below). When released, the block moves on a horizontal tabletop for 1.00 m before coming to rest. The spring constant k is 100 N/m. What is the coefficient of kinetic friction, µk, between the block and the tabletop? Show the FBD of the box in your solution.Using the dynamic equilibrium method, determine the distance that block A will travel if A has a mass of 50 kg and is traveling at 6 m/s above elevation at the time shown. Vo = 6 c Sec u=0.5 A 30A block having a mass of 0.8 kg is given an initial velocity va = 1.2 m/s to the right and collides with a spring whose mass is negligible and whose force constant is k = 50 N/m as shown in figure. Suppose a constant force of kinetic friction acts between the block and the surface, with µk = 0.5, what is the maximum compression x, in the spring. %3D
- Learning Goal: To understand the use of Hooke's law for a spring. Hooke's law states that the restoring force F on a spring when it has been stretched or compressed is proportional to the displacement of the spring from its equilibrium position. The equilibrium position is the position at which the spring is neither stretched nor compressed. Recall that Fx I means that F is equal to a constant times 2. For a spring, the proportionality constant is called the spring constant and denoted by k. The spring constant is a property of the spring and must be measured experimentally. The larger the value of k, the stiffer the spring. In equation form, Hooke's law can be written F = -kz. The minus sign indicates that the force is in the opposite direction to that of the spring's displacement from its equilibrium length and is "trying" to restore the spring to its equilibrium position. The magnitude of the force is given by F = kx, where z is the magnitude of the displacement. ▼ A 62 kg driver…A 3.00-kg block is connected to two ideal horizontal springs having force constants k1 = 28.0 N/cm and k2 = 20.0 N/cm (the figure (Figure 1)). The system is initially in equilibrium on a horizontal, frictionless surface. The block is now pushed 15.0 cm to the right and Part A What is the maximum speed of the block? released from rest. VO AZO m/s ( Request Answer Submit k1 k2 Provide Feedback IIA block attached to a horizotal spring oscillates on a frictionless surface, the x-t graph of the block is shown below. At which of the following times the speed of the block is the maximum? Select all apply. \K 0. K O L OM none of the above P.