Accepted
at 8:54 p.m. Jan, 08, 2025
by
Brian_BH
Author:
pkaps01
Type of change:
Updated content
Rationale for change
Matches set up for how equations are tested in the rest of the deck.
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The ratio of the machine’s work output to work input when non-conservative forces are taken into account
\(Efficiency = \frac{W_{out}}{W_{in}} = \frac{P_{out}}{P_{in}} = \frac{\dot W_{out}}{\dot W_{in}}\)
\(P_{out}\) = power generated by system
\(P_{in}\) = power supplied to the system
Derivative of W with respect to time is P
YouTube Link
\(Efficiency = \frac{W_{out}}{W_{in}} = \frac{P_{out}}{P_{in}} = \frac{\dot W_{out}}{\dot W_{in}}\)
\(P_{out}\) = power generated by system
\(P_{in}\) = power supplied to the system
Derivative of W with respect to time is P
YouTube Link
Lecture Notes
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Missed Questions
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Pixorize
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Sketchy
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Additional Resources
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One by one
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