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Download Exam 2 Review - BYU Physics and Astronomy
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Transcript
Exam 2 Review Jerika McKeon You will need your CID for the examMemorize it!!!!! Announcements Other Reviews: Tomorrow @ 5:30-7pm Friday @1-3pm (weekly) 108 MARB Check to see if you are missing any FBD scores. If you are, check the boxes to see if you put the wrong CID. Turn it back into the 105 Appeals box. I’m behind on extra credit, but I will grade it. Don’t worry about sending me an other copy. I will email you once your extra credit is in Max. Energy Kinetic Energy Conservation of Energy Potential Energy Work-Energy Theorem Gravitational PE Spring PE Work W=change in energy W=F//d Work lost by friction Power (NOT IN SYLLABUS) P=ΔE/Δt Collisions Elastic Inelastic Perfectly Inelastic Energy Cont. Kinetic Energy Linear KE KE=1/2*m*v^2 Rotational KE 1/2*I*ω^2 Depends on moment of Inertia (we’ll talk about that in a minute) Potential Energy Gravitational PE PE=mgy PE=-GMm/r PE=0 at r=∞ Escape velocity equations Spring PE F=-kx PE=1/2*k*x^2 Always positive (for both compressed & stretched springs) Linear Momentum p=mv Conservation of momentum- When is this true? Impulse=Ft FΔt=Δp Collisions Elastic Inelastic Energy is conserved Inelastic Conservation of momentum and conservation of energy Can use the velocity reversal equation Usually you will use 2 equations and make some substitutions to get your answer Energy is not conserved Use conservation of momentum Perfectly Inelastic Energy is not conserved; Max energy is lost Objects stick together Use conservation of momentum Conservation of Energy Ei+Wnet=Ef Wnet Energy lost from friction Energy gained through other forces Photogate problem! Angular Stuff Angular Kinematics Δθ=θf – θi ω=Δθ/Δt α=Δω/Δt Other kinematics equations Conversions- all θ must be in radians s=rθ v=rω a=rα Moment of Inertia Analogous to mass Depends on how the mass of an object is distributed I=mr^2 for point mass I=other stuff for other shapes Angular Momentum & KE Angular momentum Li=Lf L=Iω L=rp (hidden angular momentum) KE=1/2*I*ω^2 Torque Pivot Points T=rF Tnet=Iα Sum of Torques just like sum of Forces Counterclockwise = positive Clockwise = negative Equilibrium = no angular or linear acceleration Tnet=0 Fnet=0
