Consider a meter stick of negligible mass. In a statics experiment, 3 masses are attached to...
Consider a meter stick of negligible mass. In a statics experiment, 3 masses are attached to the meter stick. Mass m1 = 120 gm pulling up at position x1 =10 cm and angle 1 = 110, mass m2 = 260 gm pulling up at position x2 =30 cm and angle 2 = -100, mass m3 = 150 gm pulling up at position x3 =15 cm and angle 3 = 15. Let the x-axis coincide with the long axis of the meter stick. What is Fx?
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Consider a meter stick of negligible mass. In a statics
experiment, 3 masses are attached to...
A meter stick is mounted to a vertical post such that it is free to rotate...
A meter stick is mounted to a vertical post such that it is free to rotate in the vertical plane. The rotation axis and center of mass of the meter stick are at the same location. Two masses are attached to the meter stick as shown. M2 is 2.5 kg and is attached to the right end of the stick, i.e 50 cm from the rotation axis. M1 is attached to the left side of the meter stick a distance...
Three masses are attached to a uniform meter stick, as shown in the figure. The mass...
Three masses are attached to a uniform meter stick, as shown in the figure. The mass of the meter stick is 0.5 kg and the masses to the left of the fulcrum are m - 4.8 kg and my 4.8 kg. Find the mass my need to be attached to the right end of the stick to balance the system. 30 cm 40 cm 30 cm
5. Three masses m1, m2, and m3 are placed on hangers suspended from a meter stick. If the meter stick rotates counterc...
5. Three masses m1, m2,
and m3 are placed on hangers suspended from a
meter stick. If the meter stick rotates counterclockwise, which
direction should you move mass m3 to bring the
meter stick back to equilibrium?
Three masses m1, m2, and m3 are placed on hangers suspended from a meter stick. If the meter stick rotates clockwise,...
Three masses m1, m2, and m3 are placed on hangers suspended from a meter stick. If the meter stick rotates clockwise, which direction should you move mass m3 to bring the meter stick back to equilibrium? m2 m O toward the left O toward the right neither left nor right cannot be determined from the information given
Please help thank you! Three masses are attached to a uniform meter stick, as shown in...
Please help thank you!
Three masses are attached to a uniform meter stick, as shown in the figure. The mass of the meter stick is 0.5 kg and the masses to the left of the fulcrum are m = 4.4 kg and m2 = 4.8 kg. Find the mass my need to be attached to the right end of the stick to balance the system - 30 cm 40 cm - 30 cm A wheel rotates without friction about a...
at With the meter stick on the support stand, suspend a gram mass m = 100g...
at With the meter stick on the support stand, suspend a gram mass m = 100g the 15-cm mark on the meter stick. Then adjust the lever arm for a gram mass m2 = 200g on the other side of the axis. See Figure. X axis X X2 m m2 Record the mass and position x as read on the meter stick and then record the lever arms. Compute the torques and find a percent difference between the clockwise (Tow)...
A uniform meter stick, mass is 0.2 kg, is able to rotate about an axis of...
A uniform meter stick, mass is 0.2 kg, is able to rotate about an axis of rotation that passes through the 25 cm mark of the stick. The axis of rotation is parallel to the ground and perpendicular to the stick. There are also two small masses, each 0.5 kg, attached to the meter stick at the 0 cm mark and the 100 cm mark. 0 25 50 75 100 cm The stick is released from rest in the horizontal...
Torque Lab help I need to find the Mass of the meter stick (mms) using the...
Torque Lab help I need to find the Mass of the meter stick (mms) using the equation (M1+mmc)g(Xo-X1)=(M2+mmc)*g*(X2-Xo)+mms*g*(Xcm-Xo) xo= 03.m mmc= 0.01516kg m1=0.3kg x1=0.01m m2= 0.470 x2= 0.4m xcm= 0.495m
Torques and Center of Mass. The Experiment: In this experiment, you balance a meter stick, to...
Torques and Center of Mass. The
Experiment:
In this experiment, you balance a meter stick, to balance the
meter stick, attach masses at positions until the system is in
equilibrium.
The meter stick acts as if all its mass was concentrated at its
center of mass. With the fulcrum at the center of mass, r (the
distance from the axis of rotation to the place where the force is
applied) is 0, so there’s no torque due to the meter...
Place an unknown mass at the 10 cm mark of the meter stick. Suspend from the...
Place an unknown mass at the 10 cm mark of the meter stick. Suspend from the other side a counter mass m2 = 300g and adjust its position until the system is in static equilibrium. Using, Στ = 0 calculate the unknown mass m². Remove the unknown mass and determine its mass on the laboratory balance. See Figure. This is the accepted mass. Calculate % error. % Error lexperimentalacceptedy 100 accepted X axis X X2 m m, m=? X =...
Three masses are attached to a uniform meter stick, as shown in the figure. The mass of the meter stick is 0.5 kg and the masses to the left of the fulcrum are m - 4.8 kg and my 4.8 kg. Find the mass my need to be attached to the right end of the stick to balance the system. 30 cm 40 cm 30 cm
5. Three masses m1, m2,
and m3 are placed on hangers suspended from a
meter stick. If the meter stick rotates counterclockwise, which
direction should you move mass m3 to bring the
meter stick back to equilibrium?
Three masses m1, m2, and m3 are placed on hangers suspended from a meter stick. If the meter stick rotates clockwise, which direction should you move mass m3 to bring the meter stick back to equilibrium? m2 m O toward the left O toward the right neither left nor right cannot be determined from the information given
Please help thank you!
Three masses are attached to a uniform meter stick, as shown in the figure. The mass of the meter stick is 0.5 kg and the masses to the left of the fulcrum are m = 4.4 kg and m2 = 4.8 kg. Find the mass my need to be attached to the right end of the stick to balance the system - 30 cm 40 cm - 30 cm A wheel rotates without friction about a...
at With the meter stick on the support stand, suspend a gram mass m = 100g the 15-cm mark on the meter stick. Then adjust the lever arm for a gram mass m2 = 200g on the other side of the axis. See Figure. X axis X X2 m m2 Record the mass and position x as read on the meter stick and then record the lever arms. Compute the torques and find a percent difference between the clockwise (Tow)...
A uniform meter stick, mass is 0.2 kg, is able to rotate about an axis of rotation that passes through the 25 cm mark of the stick. The axis of rotation is parallel to the ground and perpendicular to the stick. There are also two small masses, each 0.5 kg, attached to the meter stick at the 0 cm mark and the 100 cm mark. 0 25 50 75 100 cm The stick is released from rest in the horizontal...
Torques and Center of Mass. The
Experiment:
In this experiment, you balance a meter stick, to balance the
meter stick, attach masses at positions until the system is in
equilibrium.
The meter stick acts as if all its mass was concentrated at its
center of mass. With the fulcrum at the center of mass, r (the
distance from the axis of rotation to the place where the force is
applied) is 0, so there’s no torque due to the meter...
Place an unknown mass at the 10 cm mark of the meter stick. Suspend from the other side a counter mass m2 = 300g and adjust its position until the system is in static equilibrium. Using, Στ = 0 calculate the unknown mass m². Remove the unknown mass and determine its mass on the laboratory balance. See Figure. This is the accepted mass. Calculate % error. % Error lexperimentalacceptedy 100 accepted X axis X X2 m m, m=? X =...
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