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Lever Fulcrum Lab Question: Where is the best place to put a fulcrum in a first class lever to lift heavier loads? Lever Fulcrum Lab Question: Where is the best place to put a fulcrum in a first class lever to lift heavier loads? Hypothesis: If a fulcrum is placed closer to the load, then the load will be ___________ to lift because _________. Lever Fulcrum Lab Question: Where is the best place to put a fulcrum in a first class lever to lift heavier loads? Hypothesis: If a fulcrum is placed closer to the load, then the load will be ___________ to lift because _________. Materials: Meter stick, 3 weights, Spring Scale, pencil Lever Fulcrum Lab Question: Where is the best place to put a fulcrum in a first class lever to lift heavier loads? Hypothesis: If a fulcrum is placed closer to the load, then the load will be ___________ to lift because _________. Materials: Meter stick, 3 weights, Spring Scale, pencil Lever Fulcrum Lab Procedure: 1. Put a pencil under the 80 cm mark of a meter stick to act as a fulcrum. 2. Place one mass at the 0 cm mark. Hang the spring scale on the other end, off the edge of the table. Pull down and record the force needed to lift the mass in your data table. 3. Repeat step 2 with two masses. 4. Repeat step 2 with three masses. 5. Move the pencil so that it is under the 60 cm mark and repeat steps 2-4. 6. Move the pencil so that it is under the 40 cm mark and repeat steps 2-4. Lever Fulcrum Lab Data: 80 cm Fulcrum Force (N) 1 mass 2 masses 3 masses 60 cm Fulcrum Force (N) 40 cm Fulcrum Force (N) Lever Fulcrum Lab Analysis: 1. Where is the best place the fulcrum when the load is heavy? WHY? 2. Draw a diagram of a 1st, 2nd, and 3rd class lever. Give an example of each (Reference p. 428 of textbook). 3. What is the difference between each class of lever? Lever Fulcrum Lab Analysis: 4. The number of times a machine multiplies the effort force is the mechanical advantage of the machine. To calculate the mechanical advantage (MA), you divide the resistance force by the effort force. a. A worker applies an effort force of 10 N to pry open a window that has a resistance of 500 N. What is the mechanical advantage of the crowbar? b. A carpenter uses a claw hammer to pull a nail from a board. The nail has a resistance of 2500 N. The carpenter applies an effort force of 125 N. What is the mechanical advantage of the hammer? Lever Fulcrum Lab Analysis: 5. You can also use the lengths of the arms of a lever to find the mechanical advantage of the lever. The length of the effort arm is the distance from the fulcrum to the point where effort force is applied. The length of the resistance arm is the distance from the fulcrum to the point where the resistance force is applied. a. You use a crowbar 140 cm long as a lever to lift a large rock. The rock is 20 cm from the fulcrum. You push down on the other end of the crowbar. What is the MA of the lever? b. Draw a diagram of the lever from the previous question showing the placement of the fulcrum and the direction of the effort force and resistance force. Conclusion You know the four parts! Restate purpose Summarize procedure Explain Results (connect to hypothesis) Errors/Modifications
