Torque Lab With Meter Stick And Weights Answers

Torque Lab With Meter Stick And Weights Answers. This is where we would place the weight vector of the object. Calculate the torque on both sides of the stick.

Physics 4A mwwade Balanced Torques and Center of Gravity from physics4amwwade.blogspot.com

_____ if not, add mass to the weight holder at the 10 cm mark until the meter stick balances. Now, let’s say that we slap on a hunk of heavy, sticky goo on one end of the meter stick. Note that the stick becomes unbalanced.

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Compute the total torque on the left of the pivot point from the two hangers and the meter stick. The weights and their positions are shown in the figure and you can ignore the weight of the meter stick.

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Each group will choose problems to solve Record the meter stick reading at this point.

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The weight of the stick was acting at a distance, r, away from the fulcrum and thus was causing a _____ if not, add mass to the weight holder at the 10 cm mark until the meter stick balances.

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To practice solving problems involving the second condition of equilibrium and to experimentally verify the solutions. Of the center of mass of the meter stick.

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Calculate the torque of the meter stick due to a mass of 0.010 kg placed 0.40 m from the right of the center. You can use the position of m

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Similar to the situation in the lab “torque and equilibrium, you are asked to balance a meter stick only by adjusting upward pulling position, x, for the weight that thread over the pulley. What is the size and direction of the torque caused by the weight of the meter stick?

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Meter stick supported at center of gravity. You will be given the mass and location of a known mass as well as the location of the meter stick support.

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Remember that the holder has mass! Second condition of equilibrium purpose:

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On the other side of the meter stick, find the distances so that you can balance the meter stick using 200 grams. Place equal weights equal distances from the center so that it balances.

Second Condition Of Equilibrium Purpose:

The outer mass m 1 should be about 10{20 g. Place equal weights equal distances from the center so that it balances. The equation for torque is simplified:

Torque Abstract Torque Is Defined As The Ability Of A Force To Change The Rotation Of An Object.

Remember that the holder has mass! When you are ready to start the experiment, click on the begin button These weights will create forces and torques on opposite sides of the meter stick.

Finally You Will Use The Principle Of.

Calculate the torque on both sides of the stick. That means that there must have been a net torque on the stick. Record the mass and estimate the uncertainty.

In This Experiment, We Will Be Observing Torque As The Masses Exert A Force On A Meter Stick.

(the long side of the meter stick should be to your viewing right.) now add a holding clip plus weight holder on the 10 cm side of the stick. In the first part, you will balance three forces on a meter stick and show that the net torque is zero when the meter stick is in equilibrium. (these will also be used to determine the upward vertical forces at these.

_____ If Not, Add Mass To The Weight Holder At The 10 Cm Mark Until The Meter Stick Balances.

Establish rotational equilibrium by adding mass to the four weight hangers. Notice that, before the clamp was at the center of mass, the stick rotated about the fulcrum. You will be given the mass and location of a known mass as well as the location of the meter stick support.