A 0.100-kg, 59.6-cm-long uniform bar has a small 0.070-kg mass glued to its left end and a small 0.140-kg mass glued to the other end. You want to balance this system horizontally on a fulcrum placed just under its center of gravity.
A 0.100-kg, 59.6-cm-long uniform bar has a small 0.070-kg mass glued to its left end and...
A 0.110-kg, 51.8-cm-long uniform bar has a small 0.080-kg mass glued to its left end and a small 0.135-kg mass glued to the other end. You want to balance this system horizontally on a fulcrum placed just under its center of gravity. How far from the left end should the fulcrum be placed?
A 0.115-kg, 53.6-cm-long uniform bar has a small 0.045-kg mass glued to its left end and a small 0.150-kg mass glued to the other end. You want to balance this system horizontally on a fulcrum placed just under its center of gravity. How far from the left end should the fulcrum be placed?
Constants Part A A 0.170-kg, 52.0-cm-long uniform bar has a small 0.080-kg mass glued to its left end and a small 0.145-kg mass glued to the other end. You want to balance this system horizontally on a fulcrum placed just under its center of gravity How far from the left end should the fulcrum be placed? You may want to review (Pages 340 - 343) For related problemsolving tips and strategies, you may want to view a Video Tutor Solution...
A uniform, thin bar has a mass of 2 kg and a length of 0.50m. Initially, the bar is balanced horizontally about a pin through its center of mass and orthogonal to its length. A small mass of 0.75 kg is placed on the left end and the system begins to spin. Find: a) the initial angular acceleration of the system b) the maximum angular velocity of the system c) the torque on the system when it has reached the...
A uniform, 244-N rod that is 1.92 m long carries a 225- N weight at its right end and an unknown weight W toward the left end (see the figure (Figure 1)). When W is placed 59.6 cm from the left end of the rod, the system just balances horizontally when the fulcrum is located 76.0 cm from the right end. Part A Find W 10 AED W Submit Request Answer 1 of 1 Figure Part B
A uniform, 241-N rod that is 2.12 m long carries a 225-N weight
at its right end and an unknown weight W toward the left end (see
the figure (Figure 1)). When W is placed 54.3 cm from the left end
of the rod, the system just balances horizontally when the fulcrum
is located 76.2 cm from the right end.
A. Find W.
B. If W is now moved 21.1 cm to the right, how far must the
fulcrum be...
A long thin bar (length L = 18 cm, mass 1.8 kg) of uniform
density is placed upon a horizontal, frictionless surface. A small
rubber puck (mass 250 g) slides towards the bar with a speed (2
m/s) directed perpendicular to the bar. It collides perfectly
elastically with the bar at a distance (d) from the center of mass
of the bar in such a way that the puck rebounds with a velocity (1
m/s).
a) What is the value...
A uniform, 246-N rod that is 2.08 m long carries a 225-N weight at its right end and an unknown weight W toward the left end (see the figure (Figure 1) ). When W is placed 47.9 cm from the left end of the rod, the system just balances horizontally when the fulcrum is located 65.1 cm from the right end. A) Find W B) If W is now moved 24.7 cm to the right, how far must the fulcrum...
A uniform, 275-N rod that is 2.01 m long carries a 225-N weight at its right end and an unknown weight W toward the left end (see the figure (Figure 1)). When W is placed 44.2 cm from the left end of the rod, the system just balances horizontally when the fulcrum is located 84.6 cm from the right end. If W is now moved 25.1 cm to the right, how far must the fulcrum be moved to restore balance?...
A uniform rod of length 67.5 cm and mass 0.234 kg is placed on a fulcrum at a distance of 47.7 cm from the left end of the rod. At what distance (in cm) from the left end of the rod should a 0.805 kg mass be hung to balance the rod?