The length of nylon rope from which a mountain climber is suspended has a force constant...

The length of nylon rope from which a mountain climber is suspended has a force constant...

The length of nylon rope from which a mountain climber is suspended has a force constant of 1.35 * 104 N/m. (a) What is the frequency at which he bounces, given his mass plus equipment to be 78.0 kg? ____________Hz (b) How much would this rope stretch to break the climber's fall, if he free-falls 2.00 m before the rope runs out of slack? ____________m (c) Repeat both parts of this problem in the situation where twice this length of...

The length of nylon rope from which a mountain climber is suspended has a force constant...

The length of nylon rope from which a mountain climber is suspended has a force constant of 1.20 ✕ 104 N/m. (a) What is the frequency (in Hz) at which he bounces, given that his mass plus the mass of his equipment is 69.0 kg? 2.098 Correct: Your answer is correct. Hz (b) How much would this rope stretch (in cm) to break the climber's fall if he free-falls 2.00 m before the rope runs out of slack? Hint: Use...

A 86.8-kg climber is scaling the vertical wall of a mountain. His safety rope is made...

A 86.8-kg climber is scaling the vertical wall of a mountain. His safety rope is made of a material that, when stretched, behaves like a spring with a spring constant of 1.76 x 103 N/m. He accidentally slips and falls freely for 0.580 m before the rope runs out of slack. How much is the rope stretched when it breaks his fall and momentarily brings him to rest?

A 94.9-kg climber is scaling the vertical wall of a mountain. His safety rope is made...

A 94.9-kg climber is scaling the vertical wall of a mountain. His safety rope is made of a material that, when stretched, behaves like a spring with a spring constant of 1.98 x 103 N/m. He accidentally slips and falls freely for 0.692 m before the rope runs out of slack. How much is the rope stretched when it breaks his fall and momentarily brings him to rest?

A 79.7-kg climber is scaling the vertical wall of a mountain. His safety rope is made...

A 79.7-kg climber is scaling the vertical wall of a mountain. His safety rope is made of a material that, when stretched, behaves like a spring with a spring constant of 1.72 x 103 N/m. He accidentally slips and falls freely for 0.968 m before the rope runs out of slack. How much is the rope stretched when it breaks his fall and momentarily brings him to rest?

A patio swing is suspended by two springs, each of which has a force constant of...

A patio swing is suspended by two springs, each of which has a force constant of 495 N/m, equivalent to a single spring force constant of 990 N/m. Find the mass of a person sitting on the swing oscillating up and down at a frequency of 0.520 Hz.

A mountian climber of mass 60.kg slips and falls distance of 4.0 m, at which time...

A mountian climber of mass 60.kg slips and falls distance of 4.0 m, at which time he reaches the end of his elastic saftey rope. The rope then stretches an additional 2.0m before the climber comes to rest. What is the spring constant of the rope , assuming it obeys Hooke's law?

-Mary and Pippen hold a rope tightly between them. The rope has a set length of...

-Mary and Pippen hold a rope tightly between them. The rope has a set length of 2.3 m and a mass of 0.55 kg, and initially there is a tension in the jumprope of 690 N. What is the mass per unit length of the rope (aka. the little "mu" symbol in the equation for wave speed)? (Give your answer to 3 sig figs. and in units of kg/m)   -If Mary sends a wave towards Pippen under these conditions, what...

A mountain climber of mass m=75.0 kg slips during a climb and begins to fall freely....

A mountain climber of mass m=75.0 kg slips during a climb and begins to fall freely. She forgot her rope and had to use an ideal spring. The spring is hanging vertically with an unstretched equilibrium position at the origin, x=0. On her descent, she grabs the end of the spring which has a spring constant of k= 981 N/m. Ignore friction, air resistance, and any other dissipative effects. a) The climbers velocity when she grabbed the spring was 20.0...

ch 6 1: It is generally a good idea to gain an understanding of the "size"...

ch 6 1: It is generally a good idea to gain an understanding of the "size" of units. Consider the objects and calculate the kinetic energy of each one. A ladybug weighing 37.3 mg flies by your head at 3.83 km/h . ×10 J A 7.15 kg bowling ball slides (not rolls) down an alley at 17.5 km/h . J A car weighing 1260 kg moves at a speed of 49.5 km/h. 5: The graph shows the ?-directed force ??...