A 0.454-kg block is attached to a horizontal spring that is at its equilibrium length, and...
A 0.454-kg block is attached to a horizontal spring that is at its equilibrium length, and whose force constant is 25.0 N/m. The block rests on a frictionless surface. A 5.60×10−2-kg wad of putty is thrown horizontally at the block, hitting it with a speed of 8.93 m/s and sticking. How far does the putty-block system compress the spring?
A 0.454-kg block is attached to a horizontal spring that is at its equilibrium length, and whose force constant is 22.0 N/m. The block rests on a frictionless surface. A 5.40×10−2-kg wad of putty is thrown horizontally at the block, hitting it with a speed of 8.98 m/s and sticking. How far does the putty-block system compress the spring?
A 0.454-kg block is attached to a horizontal spring that is at its equilibrium length, and whose force constant is 21.0 N/m. The block rests on a frictionless surface. A 6.00×10−2-kg wad of putty is thrown horizontally at the block, hitting it with a speed of 8.95 m/s and sticking. Part A How far does the putty-block system compress the spring?
A 0.500 kg block of wood rests on a horizontal frictionless surface and is attached to a spring (also horizontal) with a 29.5 N/m force constant that is at its equilibrium length. A 0.0600 kg wad of Play Doh is thrown horizontally at the block with a speed of 2.70 m/s and sticks to it. Determine the amount in centimeters by which the Play-Doh-block system compresses the spring.
A 0.450 kg block of wood rests on a horizontal frictionless surface and is attached to a spring (also horizontal) with a 24.5 N/m force constant that is at its equilibrium length. A 0.0600 kg wad of Play-Doh is thrown horizontally at the block with a speed of 2.60 m/s and sticks to it. Determine the amount in centimeters by which the Play-Doh-block system compresses the spring.
A 0.330 kg block of wood rests on a horizontal frictionless surface and is attached to a spring (also horizontal) with a 27.5 N/m force constant that is at its equilibrium length. A 0.0600 kg wad of Play-Doh is thrown horizontally at the block with a speed of 2.50 m/s and sticks to it. Determine the amount by which the Play-Doh-block system compresses the spring.
A 0.360 kg block of wood rests on a horizontal frictionless surface and is attached to a spring (also horizontal) with a 28.0 N/m force constant that is at its equilibrium length. A 0.0600 kg wad of Play-Doh is thrown horizontally at the block with a speed of 2.70 m/s and sticks to it. Determine the amount in centimeters by which the Play-Doh-block system compresses the spring. In cm
A block rests on a frictionless horizontal surface and is attached to a spring..... Chapter 10, Problem 81 A block rests on a frictionless horizontal surface and is attached to a spring. When set into simple harmonic motion, the block oscillates back and forth with an angular frequency of 9.8 rad/s. The drawing shows the position of the block when the spring is unstrained. This position is labeled "x=0m." The drawing also shows a small bottle located 0.080 m to...
A 15.0 kg block is attached to a very light horizontal spring of force constant 375 N/m and is resting on a frictionless horizontal table. (See the figure below (Figure 1).) Suddenly it is struck by a 3.00 kg stone traveling horizontally at 8.00 m/s to the right, whereupon the stone rebounds at 2.00 m/s horizontally to the left. Find the maximum distance that the block will compress the spring after the collision. x=...?meter
A horizontal spring with k = 72 N/m has one end attached to a wall and the other end free. An 91 g wad of putty is thrown horizontally at 3.4 m/s directly toward the free end. Find the maximum spring compression (ignore gravity). Hint: Kinetic energy is converted into potentail energy of spring . Express your answer to two significant figures and include the appropriate units.