An object is launched horizontally from a spring in a demonstration device, as shown above. The object is elevated above the floor at initial height h.(a) Derive an equation for the initial horizontal velocity v0, in terms of the spring constant k, the compression of the spring, x, the mass m of the object, and any fundamental constants.(b) Derive an equation for the time, t, from the moment the object leaves the table until it strikes the floor, in terms of the height h and any necessary fundamental constants.(c) Derive an equation for the horizontal displacement from the edge of the table, d, in terms of h, k, x, m, and any fundamental constants. 1. An object is launched horizontally from a spring in a demonstration device, as shown above. The object iselevated above the floor at initial height h.(a) Derive an equation for the initial horizontal velocity vo, in terms of the spring constant k, the compression ofthe spring, x, the mass m of the object, and any fundamental constants.(b) Derive an equation for the time, 1, from the moment the object leaves the table until it strikes the floor, interms of the height h and any necessary fundamental constants.(c) Derive an equation for the horizontal displacement from the edge of the table, d, in terms of h, k, x, m, andany fundamental constants.

Part (a) The formula to calculate the initial potential energy of an object is, Ui=12kx2 Here, Ui is…

An object is launched horizontally from a spring in a demonstration device, as shown above. The object is elevated above the floor at initial height h. (a) Derive an equation for the initial horizontal velocity v0, in terms of the spring constant k, the compression of the spring, x, the mass m of the object, and any fundamental constants. (b) Derive an equation for the time, t, from the moment the object leaves the table until it strikes the floor, in terms of the height h and any necessary fundamental constants. (c) Derive an equation for the horizontal displacement from the edge of the table, d, in terms of h, k, x, m, and any fundamental constants

An object is launched horizontally from a spring in a demonstration device, as shown above. The object is elevated above the floor at initial height h. (a) Derive an equation for the initial horizontal velocity v0, in terms of the spring constant k, the compression of the spring, x, the mass m of the object, and any fundamental constants. (b) Derive an equation for the time, t, from the moment the object leaves the table until it strikes the floor, in terms of the height h and any necessary fundamental constants. (c) Derive an equation for the horizontal displacement from the edge of the table, d, in terms of h, k, x, m, and any fundamental constants

Related questions

Q: A box with mass m = 2 kg initially compresses a spring with spring constant k = 100 N by a…

Q: Homework 7, Problem 6: A vertical spring has a length of 0.25 m when a 0.225 kg mass hangs from…

A: We have F1 = m1 g = k(x1) = k(L1 - L0)............(1) and F2 = m2g =…

Q: A 1 kg object is attached to a spring with a spring constant of 65 N/m so that the object is allowed…

A: Given Data: Mass is m=1 kg Force constant is k=65 N/m Distance is x=0.15 m

Q: It is weigh-in time for the local under 85 kg rugby team. The bathroom scale that is used to assess…

Q: Let's consider the system given in Figure 2. The end of a flexible spring with spring constant k is…

A: We are given the spring attached and the angle of inclination. We first find the net force on block.…

Q: An adventurous bungee jumper for mass 70 kg secures one end of her cord to a bridge that's high…

Q: 1. Lindsey Vonn, a famous American skier, navigates an Alpine slope. She starts from rest at a…

A: Given:initial height, Hinitial velocity, v' = 0 m/slaunch angle, θ = 45omaximum hieght in air,…

Q: Acceleration is related to distance and time by the followingexpression: a = 2xtp. Find the power p…

Q: You construct a dart gun using a spring that has a spring constant of 250 N/m. The dart you wish to…

Q: Find the magnitude of force in the unit of N required to compress a spring with spring constant k =…

A: Spring constant k = 327 N/m Compression in the spring is x = 1.2 cm = 0.012 m

Q: A block on a frictionless horizontal surface is attached to a cable and a spring that is stretched…

A: Given data, Stretched in the spring = 0.17 m Tension in the cable = 48 N Normal force on the block =…

Q: A courier is delivering a 5 kg package to an office high in a tall building. (a) What upwards…

Q: A projectile fired from the ground follows the trajectory given by the following equation, where v…

Q: A 0.55 kg block attached to a spring with force constant 131 N/m is free to move on a frictionless,…

A: Solution: Given that mass of the block m = 0.55 kg spring constant k =131 N/m spring strech x =0.13…

Q: The force law for a non-linear spring is F(x) = -60x1.15 N. Find the average force exerted by the…

A: This problem can be solved using the formula for the average of a function.

Q: Let's consider the system given in Figure 2. The end of a flexible spring with spring constant k is…

Q: Describe an experiment to measure the acceleration due to gravity in a school laboratory using a…

A: Aim : To measure acceleration due to gravity using helical spring.

Q: The spring has a constant of 30 N/m and the frictional surface is 0.2 m long with a coefficient of…

Q: 2 kg block is launched up a frictionless inclined plane by a spring as shown in (Figure 1). The…

Q: A 0.56 kg block attached to a spring with force constant 118 N/m is free to move on a frictionless,…

A: Given : m = 0.56 kg k = 118 N/m A = 0.13 m

Q: Consider the track shown in the figure. The section AB is one quadrant of a circle of radius 2.0 m…

Q: A block with mass m1 = 8.7 kg is on an incline with an angle θ = 37° with respect to the horizontal.…

A: See below

Q: 1. What is the change in vertical position of the bungee jumper between t = 0 and t = 20 You may…

A: Since you have posted a question with multiple sub parts, we will provide the solution only to the…

Q: In an ore-mixing operation, a bucket full of ore is suspended from a traveling crane which moves…

A: Draw the schematic diagram of the system.

Q: A spring hangs down from a ceiling a distance of 7 cm. When a mass of 171 grams is attached, the…

Q: A mass of 7.0 kg hangs from a spring attached to the ceiling. The spring has a spring constant of…

A: Spring force is given asF=k∆xK=spring constant∆x = stretches in spring

Q: a man jumps of a bridge which is 30 m above a river. attached to him and the bridge is a 22m long…

Q: Let's consider the system given in Figure 2. The end of a flexible spring with spring constant k is…

A: Given:mass of the block, mspring constant of spring, kacceleration due to gravity, gangle of…

Q: rier with a mass of 9.38 kg to the bungie cord and let the dog drop. The cord is 100 m long when…

A: The spring constant k = 48.1 N/m You attach a somewhat nervous Boston Terrier with a mass of m =…

Q: along the horizontal at its end, which is 0.610 m above the ground. When she leaves the track, she…

Q: A spring-loaded Nerf gun can shoot a foam bullet 13.0 m straight up into the air when the spring is…

Q: The stories of a tall building are uniformly 13.0 feet in height. A ball A is dropped from the…

Q: A 69 g ice cube can slide without friction up and down a 30° slope. The ice cube is pressed against…

Q: Spring scales are often used in markets for weighing produce and simply consist of a spring…

Q: 3. A particle is released from rest from a height h and free-falls. Assuming the air resistance…

Q: Suppose that the mass in a mass-spring-dashpot system with m=20, c-19 and k 3 is set in motion with…

Q: A mass is an initial speed of v down a ramp inclined at an angle of θ to the horizontal. The…

A: We are given initial speed. We draw free body diagram of the mass. We then find acceleration of…

Q: The problem uses the ideal spring force, in one dimension. F = -kx, where x is the deviation from…

A: The maximum speed for a particle performing simple harmonic motion is given asv=AωA is the amplitude…

Q: Let's consider the system given in Figure 2. The end of a flexible spring with spring constant k is…

A: We are given the spring constant. We are given the mass and inclination of the incline. We first…

Q: After a 5-pound weight is attached to a spring 5 feet long, the spring is 6 feet long. The 5-pound…

Q: A package is projected up a 15° incline at A with an ini velocity of 8 m/s. Knowing that the…

Q: A bowling ball is attached to a 3.73-meter long cable and hung from the ceiling. The cable is kept…

Q: You are holding a thin and weightless bar on your head (see figure 2.1). On the extremity 4, the bar…

Q: A block of mass m is located on an inclined plane that makes an angle with the horizontal. The…

A: Given system: Since you have posted a question with multiple subparts, we will solve first three…

Q: A spring with a spring constant k is used to stop the box moving in an inclined plane, with an…

Question

An object is launched horizontally from a spring in a demonstration device, as shown above. The object is elevated above the floor at initial height h.

(a) Derive an equation for the initial horizontal velocity v₀, in terms of the spring constant k, the compression of the spring, x, the mass m of the object, and any fundamental constants.

(b) Derive an equation for the time, t, from the moment the object leaves the table until it strikes the floor, in terms of the height h and any necessary fundamental constants.

(c) Derive an equation for the horizontal displacement from the edge of the table, d, in terms of h, k, x, m, and any fundamental constants.