The meterstick shown is 100 cm long. It is free to pivot around its center of...
The meterstick shown is 100 cm long. It is free to pivo around its center of gravity (CG), which is at the 50 cm mark. There is a 20.0 N block hanging from the 80 cm mark Decide where each of the other blocks should be placed one at a time, to balance out the 20.0 N block. At what mark on the meter stick would you place a 19.0 N block to balance the 20.0 N block? mark: At...
10 20 30 40 50 60 70 80 90 The meterstick shown is 100 cm long. It is free to pivot around its center of gravity (CG), which is at the 50 cm mark. There is a 25.0 N block hanging from the 80 cm mark. Decide where each of the other blocks should be placed, one at a time, to balance out the 25.0 N block. 3 2 1 At what mark on the meter stick would you place...
A meter-stick is bolted to a wall. The bolt (pivot) is at the 5 cm mark. Someone pulls on the 75 cm mark with a 108 N force as indicated in the drawing. Find the torque . Give magnitude and direction. 11. A meter-stick is bolted to a wall. The bolt (pivot) is at the 5 cm mark. Someone pulls on the 75 cm mark with a 108 N force as indicated in the drawing. Find the torque. Make sure...
A pivot clip is positioned at the center of a meter stick with two hanging clips placed on the left side (each clip is 5 g) one at 10 cm from the center and other at 30 cm from the center. Each added mass is 30 g. What single mass would need to be positioned at 40 cm to the right of center to balance the system
2. A meter stick was pivoted at the 30 cm mark with its center of gravity at the 50 cm mark. If a mass of 25.29 g is hanging at the 70.35 cm mark, what mass must be hung from the 11.98 cm mark in order for the system to be in equilibrium? (Take the mass of the stick to be 98 g)
2. A meter stick was pivoted at the 30 cm mark with its center of gravity at the 50 cm mark. If a mass of 25.29 g is hanging at the 70.35 cm mark, what mass must be hung from the 11.98 cm mark in order for the system to be in equilibrium? (Take the mass of the stick to be 98 8)
A fulcrum is placed at the 40 cm mark on a 50 g meter stick (center of mass at the 50 cm mark). A 35 g mass is placed at the 10 cm mark. What mass would have to be placed at the 75 cm mark to balance the meter stick?
A meterstick is balanced on a fulcrum at its center. Then a 400 N weight is placed 10 cm to the left of center. How many cm to the right of center would a 130 N weight need to be placed in order to balance the system?
A meterstick is balanced on a fulcrum at its center. Then a 400 N weight is placed 10 cm to the left of center. How many cm to the right of center would a 130 N weight need to be placed in order to balance the system?
Each meterstick shown below is free to rotate around its left end. Each meter stick has lines in the picture at 0.25m, 0.5m, 0.75m, and the right end is 1m. More than one answer is possible. a. Which cases have a net torque of zero? b. Which cases have a non-zero change in angular momentum? 8A 8 1 (2N 20