03:04Maximum compression of the spring in elastic collision: perfectly symmetric collision problem.Zak's Lab921views
05:20Coiled spring launches two masses, momentum and energy with two masses and compressed spring.Zak's Lab365views
Multiple ChoiceAn 8g piece of sticky clay strikes and embeds itself in a 0.992kg block at rest on a frictionless, horizontal surface. The block is attached to a spring with a spring constant of 5N/m. The impact compresses the spring 75.0 cm. What was the initial speed of the clay?622views10rank
Textbook QuestionINT One end of a massless, 30-cm-long spring with spring constant 15 N/m is attached to a 250 g stationary air-track glider; the other end is attached to the track. A 500 g glider hits and sticks to the 250 g glider, compressing the spring to a minimum length of 22 cm. What was the speed of the 500 g glider just before impact?662views1rank
Textbook QuestionA 600 g air-track glider collides with a spring at one end of the track. FIGURE EX11.13 shows the glider's velocity and the force exerted on the glider by the spring. How long is the glider in contact with the spring?598views
Textbook Question(II) A bullet of mass m = 0.0010 kg embeds itself in a wooden block with mass M = 0.999 kg, which then compresses a spring (k = 140 N/m) by a distance 𝓍 = 0.050 m before coming to rest. The coefficient of kinetic friction between the block and table is μ = 0.50 (b) What fraction of the bullet’s initial kinetic energy is dissipated (in damage to the wooden block, rising temperature, etc.) in the collision between the bullet and the block?211views
Textbook Question(II) A bullet of mass m = 0.0010 kg embeds itself in a wooden block with mass M = 0.999 kg, which then compresses a spring (k = 140 N/m) by a distance 𝓍 = 0.050 m before coming to rest. The coefficient of kinetic friction between the block and table is μ = 0.50.(a) What is the initial velocity (assumed horizontal) of the bullet?93views
Textbook QuestionIn Problems 76, 77, 78, and 79 you are given the equation(s) used to solve a problem. For each of these, you are toa. Write a realistic problem for which this is the correct equation(s).1/2(0.30 kg)(0 m/s)² + 1/2(3.0 N/m)(Δx2)²= 1/2(0.30 kg)(v1x)² + 1/2(3.0 N/m)(0 m)²68views
Textbook QuestionIn Problems 76, 77, 78, and 79 you are given the equation(s) used to solve a problem. For each of these, you are tob. Finish the solution of the problem, including a pictorial representation.1/2(0.30 kg)(0 m/s)² + 1/2(3.0 N/m)(Δx2)²= 1/2(0.30 kg)(v1x)² + 1/2(3.0 N/m)(0 m)²81views