rube goldberg project. rube goldberg paper detail the energy transfers involved discuss the simple...
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Rube Goldberg Project
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Rube Goldberg Paper
• Detail the energy transfers involved
• Discuss the simple machines used
• Include important design or production ideas
• Include any physics concepts you had to consider while completing the machine
• Not a description of the steps, rather a topical discussion of the physics involved.
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Energy Transfers
• For the Rube Goldberg machine to work, energy must be transferred from the beginning to the end.
• Types of energy– Gravitational potential - Chemical– Elastic potential - Electrical– Kinetic - Thermal– Linear -
Rotational
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Energy Transfers
• Potential to kinetic– Ball rolling down a ramp
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Energy Transfers
• Elastic to kinetic– Slingshot propelling a marble
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Energy Transfers
• Linear to rotational– Ball falling into basket connected to pulley
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• A bar supported at a single point called the fulcrum.
• Position of the fulcrum changes the mechanical advantage.
• Manipulate the position of the fulcrum.
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WHEEL & AXLE
• Any large disk (the wheel) attached to a small diameter shaft or rod (the axle)
• Can give you mechanical advantage.
• Example: Turning a screw with a screwdriver
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• Any rope or cable looped around a support. – Example: A rope thrown over a branch to hoist
something into the air.
• Often incorporates a wheel and axle system to reduce the friction on the rope and the support.
• Gives mechanical advantage
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• A ramp
• Allows you to exert less force at the price of a longer distance
• Same amount of work done, just seems easier because less force is needed.
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• Two inclined planes placed back to back
• May be forced into an object to prevent it from moving or to split it into pieces.
• Example: A knife
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• An inclined plane wrapped around a cone• Can be used to move a load (like a
corkscrew jack)• Used to fasten objects together because
of the great forces screws can exert
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Complex Machines
• Derived from simple machines
• Combination and adaptation of simple machines
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Mechanical Advantage
• Simple machines can provide MA.
• Ratio of output force to input force.
• MA = Output force = Input distance
Input force Output distance
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Efficiency
• Real machines have friction
• Energy is dissipated as heat
• Never 100% efficient
• % Efficiency = Output work x 100%
Input work
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