A block is attached to the top of a spring that stands vertically on a table. The spring stiffness is 57 N/m, its relaxed length is 31 cm, and the mass of the block is 305 g. The block is oscillating up and down as the spring stretches and compresses. At a particular time you observe that the velocity of the block is <0, 0.0877, 0> m/s and the position of the block is <0, 0.0798, 0> m relative to an origin at the base of the spring. Using a time step of 0.1 s, determine the position of the block 0.2 s later.
A block is attached to the top of a spring that stands vertically on a table....
A block is attached to the top of a spring that stands vertically on a table. The spring stiffness is 64 N/m, its relaxed length is 31 cm, and the mass of the block is 225 g. The block is oscillating up and down as the spring stretches and compresses. At a particular time you observe that the velocity of the block is <0, 0.0877, 0> m/s and the position of the block is <0, 0.0798, 0> m relative to...
A block is attached to the top of a spring that stands vertically on a table. The spring stiffness is 59 N/m, its relaxed length is 23 cm, and the mass of the block is 275 g. The block is oscillating up and down as the spring stretches and compresses. At a particular time you observe that the velocity of the block is <0, 0.0877, 0> m/s and the position of the block is <0, 0.0798, 0> m relative to...
Problem 2.43 Your answer is partially correct. Try again. Use the approximation that Vavg -Plm for each time step. A block is attached to the top of a spring that stands vertically on a table. The spring stiffness is 58 N/m, its relaxed length is 31 cm, and the mass of the block is 395 g. The block is oscillating up and down as the spring stretches and compresses. At a particular time you observe that the velocity of the...
A spring with a relaxed length of 25 cm and a stiffness of 15 N/m stands vertically on a table. A block of mass 86 g is attached to the top of the spring. You pull the block upward, stretching the spring until its length is now 29.9 cm, hold the block at rest for a moment, and then release it. Using a time step of 0.1 s, predict the position and momentum of the block at a time 0.2...
A spring with a relaxed length of 25 cm and a stiffness of 13 N/m stands vertically on a table. A block of mass 73 g is attached to the top of the spring. You pull the block upward, stretching the spring until its length is now 31.7 cm, hold the block at rest for a moment, and then release it. Using a time step of 0.1 s, predict the position and momentum of the block at a time 0.2...
Use the approximation that for each time step. A spring with a relaxed length of 25 cm and a stiffness of 16 N/m stands vertically on a table. A block of mass 78 g is attached to the top of the spring. You pull the block upward, stretching the spring until its length is now 29.5 cm, hold the block at rest for a moment, and then release it. Using a time step of 0.1 s, predict the position and...
Use the approximation that Vavg lm for each time step A spring with a relaxed length of 25 cm and a stiffness of 20 N/m stands vertically on a table. A block of mass 69 g is attached to the top of the spring. You pull the block upward, stretching the spring until its length is now 29.7 cm, hold the block at rest for a moment, and then release it. Using a time step of 0.1 s, predict the...
Use the approximation that v→avg=p→f/m for each time step. A spring with a relaxed length of 25 cm and a stiffness of 17 N/m stands vertically on a table. A block of mass 75 g is attached to the top of the spring. You pull the block upward, stretching the spring until its length is now 30.9 cm, hold the block at rest for a moment, and then release it. Using a time step of 0.1 s, predict the position...
Use the approximation that v→avg=p→f/m for each time step. A spring with a relaxed length of 25 cm and a stiffness of 16 N/m stands vertically on a table. A block of mass 89 g is attached to the top of the spring. You pull the block upward, stretching the spring until its length is now 30.3 cm, hold the block at rest for a moment, and then release it. Using a time step of 0.1 s, predict the position...
Use the approximation that v→avg=p→f/m for each time step. A spring with a relaxed length of 25 cm and a stiffness of 16 N/m stands vertically on a table. A block of mass 89 g is attached to the top of the spring. You pull the block upward, stretching the spring until its length is now 30.3 cm, hold the block at rest for a moment, and then release it. Using a time step of 0.1 s, predict the position...