A uniform meter rule of mass 60 g is suspended at the 35 cm point by...

A uniform meter stick is suspended from a string tied at the 50.00 cm mark. A...

A uniform meter stick is suspended from a string tied at the 50.00 cm mark. A 250.0 g is added to a mass hanger (mass 50.0 g) and a 7.5 grams metal clamp at 20.0 cm mark. Where on the meter stick would you hang a 100.0 gram slotted mass to balance the system?

1. Equilibrium Lab Example. A meter stick with unknown mass is suspended by two strings of...

1. Equilibrium Lab Example. A meter stick with unknown mass is suspended by two strings of length 60 cm, so that it forms an equilateral triangle, 30 cm from the center on each side as shown. Three masses, mass 1= 200g, mass 2= 400 g, and a third unknown mass are hung at 3 different positions as shown (mass 1 at 50 cm meter stick position, mass 2 at the 20 cm position, and mass 3 at the 90 cm...

1. A uniform meter stick is supported by a knife edge at the 50.0 cm mark...

1. A uniform meter stick is supported by a knife edge at the 50.0 cm mark and has a masse of 4.44 kg hanging from the 11.80 cm mark. A second mass of 7.04 kg should be hung at the _____ cm mark to keep the stick balanced? 2.

A uniform meter stick is supported by a knife edge at the 50.00 cm mark and...

A uniform meter stick is supported by a knife edge at the 50.00 cm mark and has masses od 0.20 kg and 0.50 kg hanging from the 20.00 cm and 85.00 cm marks respectively. Where should a third mass of 0.30 kg be hung to keep the stick balanced?

You’ve been given the challenge of balancing a uniform, rigid meter-stick with mass M = 95...

You’ve been given the challenge of balancing a uniform, rigid meter-stick with mass M = 95 g on a pivot. Stacked on the 0-cm end of the meter stick are n identical coins, each with mass m = 4.3 g, so that the center of mass of the coins is directly over the end of the meter stick. The pivot point will be measured from the 0-cm end of the meter stick. Determine the distance da in cm if there...

A small, m = 3.00 g plastic ball is suspended by a L = 24.0 cm...

A small, m = 3.00 g plastic ball is suspended by a L = 24.0 cm long string in a uniform electric field, as shown in the figure below. If the ball is in equilibrium when the string makes a 20.0° angle with the vertical as indicated, what is the net charge on the ball?

A small, m = 2.00 g plastic ball is suspended by a L = 25.0 cm...

A small, m = 2.00 g plastic ball is suspended by a L = 25.0 cm long string in a uniform electric field, as shown in the figure below. If the ball is in equilibrium when the string makes a 12.0° angle with the vertical as indicated, what is the net charge on the ball?   µC

A meter stick is balanced at its 50.0 cm center of mass. Suppose a 20.0 g...

A meter stick is balanced at its 50.0 cm center of mass. Suppose a 20.0 g mass is now placed at the 40.0 cm position. What torque is being applied by this mass? Given data from ques 1, at what position would a 10.0 g mass have to be placed to achieve equilibrium? Suppose the 10.0 g mass is removed, and an unknown mass is now placed at the 90.0 cm position on the meter stick. Find this unknown mass....

A bob of mass m = 0.300 kg is suspended from a fixed point with a...

A bob of mass m = 0.300 kg is suspended from a fixed point with a massless string of length L = 21.0 cm . You will investigate the motion in which the string traces a conical surface with half-angle θ = 22.0 What tangential speed v must the bob have so that it moves in a horizontal circle with the string making an angle 22.0 ∘ with the vertical? Express your answer numerically in meters per second.

A small ball of mass 61 g is suspended from a string of length 62 cm...

A small ball of mass 61 g is suspended from a string of length 62 cm and whirled in a circle lying in the horizontal plane. If the string makes an angle of 25◦ with the vertical, find the centripetal force experienced by the ball. The acceleration of gravity is 9.8 m/s 2 . Answer in units of N