A meterstick balances at its center. An 89-g necklace is suspended from one end of the...

A meterstick balances at its center. If an 86-g necklace is suspended from one end of...

A meterstick balances at its center. If an 86-g necklace is suspended from one end of the meterstick, the balance point moves 8.2cm toward that end. a.) Is the mass of the meterstick grester than, less than, or equal to the mass of the necklace? Explain. b.) Find the mass of the meterstick.

A meter stick has a mass of 0.27 kg and balances at its center. When a...

A meter stick has a mass of 0.27 kg and balances at its center. When a small chain is suspended from one end, the balance point moves 27.0 cm toward the end with the chain. Determine the mass of the chain.

A meter stick has a mass of 0.24 kg and balances at its center. When a...

A meter stick has a mass of 0.24 kg and balances at its center. When a small chain is suspended from one end, the balance point moves 27.0 cm toward the end with the chain. Determine the mass of the chain.

sketch a vertical stiff 1.6m long rod of negligible mass, that is suspended from a hinged...

sketch a vertical stiff 1.6m long rod of negligible mass, that is suspended from a hinged support at point O, and supports two equal 1.5 kg masses, one at its midpoint C, and the other at its bottom end B. Locate the system’s center of mass, G. Determine the mass moment of inertia of the system about point O. Determine the period of small free vibrations.

A thin rod of length 0.97 m and mass 210 g is suspended freely from one...

A thin rod of length 0.97 m and mass 210 g is suspended freely from one end. It is pulled to one side and then allowed to swing like a pendulum, passing through its lowest position with angular speed 4.93 rad/s. Neglecting friction and air resistance, find (a) the rod's kinetic energy at its lowest position and (b) how far above that position the center of mass rises.

A meterstick (L = 1 m) has a mass of m = 0.235 kg. Initially it...

A meterstick (L = 1 m) has a mass of m = 0.235 kg. Initially it hangs from two short strings: one at the 25 cm mark and one at the 75 cm mark. 1) What is the tension in the left string? N You currently have s for this question. 2) Now the right string is cut! What is the initial angular acceleration of the meterstick about its pivot point? (You may assume the rod pivots about the left...

A student places a mass of 25 grams near the end of the meter stick (at...

A student places a mass of 25 grams near the end of the meter stick (at the 5 cm mark) and moves the balance point (the fulcrum) from the former center of gravity of the meter stick at 50 cm to the 42 cm meter mark. There is no additional weight on the opposite side of the meter stick, but it is now in balance. What conclusions and generalizations can you make from the following data collected by a student...

Two balls are suspended from the ceiling by parallel strings so that they touch each other.....

Two balls are suspended from the ceiling by parallel strings so that they touch each other.. The masses of the balls are 200 g and 100 g. The heavier ball is raised so that its center of mass is now 4.5 cm higher than earlier. Then the ball is released and allowed to collide with each other. If the collision is elastic, find the final heights of the center of masses of the two balls after the collision?

A 50-cm-long spring is suspended from the ceiling. A 330 gmass is connected to the end...

A 50-cm-long spring is suspended from the ceiling. A 330 gmass is connected to the end and held at rest with the spring unstretched. The mass is released and falls, stretching the spring by 20 cm before coming to rest at its lowest point. It then continues to oscillate vertically. a. What is the spring constant? b. What is the amplitude of the oscillation? c. What is the frequency of the oscillation?

1) A thin rod of length 0.64 m and mass 150 g is suspended freely from...

1) A thin rod of length 0.64 m and mass 150 g is suspended freely from one end. It is pulled to one side and then allowed to swing like a pendulum, passing through its lowest position with angular speed 1.46 rad/s. Neglecting friction and air resistance, find (a) the rod's kinetic energy at its lowest position and (b) how far above that position the center of mass rises. 2) A wheel, starting from rest, rotates with a constant angular...