Introduction
Theses are all the equations we have used in physics so far. Every time I come across a new equation, I write it in this booklet.
Analysis
After finishing the simpler equations for time, distance, velocity, etc... we learned about vectors and force. We used equations for these, combined with fundamental identities equations, to determine what would happen in rhetorical situations like car accidents(ex: R^2 = Rx^2 + Ry^2). Then we used the fundamental identities to learn about objects on slopes and frictional and normal forces[ex: Fn = mgcos(feta)]. After this we used mass and velocity to calculate situations like explosions and collisions. [ex: (m1 + m2) Vi = m1V1f + m2V2f]. Next, after working through work, power, and energy (ex: PE = mgh), we learned about current and systems with series and parallel circuits (ex: Series: RT = R1 + R2 + R3...). And finally, we learned about linear, angular, and radians equations that have to do the displacement, frequency, velocity, etc... of objects rotating on an axis (ex: w = (wi + wf) / 2).
physics_equations_1.pdf | |
File Size: | 142 kb |
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physics_equations_2.pdf | |
File Size: | 570 kb |
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physics_equations_3.pdf | |
File Size: | 147 kb |
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