Professor Jasper Halekas Van Allen Lecture Room 1 MWF 8:30-9:20 Lecture

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Transcription:

Professor Jasper Halekas Van Allen Lecture Room 1 MWF 8:30-9:20 Lecture

Mean = 9.63/15 = 64% (> 60% target!) Std. Dev. = 2.22 Min =4 Max = 15 Nice job!!!! Solutions posted tonight

Homework due Thursday night as usual Labs scheduled as usual

Newton s Second Law

SI Units [kg][m]/[s] (no special name)

SI Units [N][s] = [kg][m]/[s] (same as momentum)

One glass beaker is dropped from rest onto a piece of foam, and a second is dropped from rest from the same height onto a brick. Neither one bounces. Which beaker experiences the highest maximum force? A. The beaker dropped on foam B. The beaker dropped on bricks C. Both experience the same force D. Impossible to determine

One glass beaker is dropped from rest onto a piece of foam, and a second is dropped from rest from the same height onto a brick. Neither one bounces. Which beaker experiences the highest maximum force? A. The beaker dropped on foam B. The beaker dropped on bricks C. Both experience the same force D. Impossible to determine

Bigger objects require more force to change their velocity!

Sometimes momentum is conserved even when mechanical energy is not! Momentum is often more useful when considering multiple bodies simultaneously

Consider two bodies subject to both external and internal forces Internal forces = forces between the two bodies (e.g. F 12 = Force on body 1 from body 2) (F 1ext + F 12 )Δt = p 1f p 1i (F 2ext + F 21 )Δt = p 2f p 2i (F 1ext + F 2ext + F 12 + F 21 )Δt = p 1f p 1i + p 2f p 2i Note: All bolded letters represent vectors!

(F 1ext + F 2ext + F 12 + F 21 )Δt = p 1f p 1i + p 2f p 2i Simplify by using Newton s 3 rd law and combining external forces and momenta to find: F ext_total Δt = p f_total p i_total If no net external force, total momentum of the two bodies is conserved This can be extended to any number of bodies!

Explicit expression for conservation of momentum for two bodies: m 1 v 1f + m 2 v 2f = m 1 v 1i + m 2 v 2i True as long as no net external force acts True even if total mechanical energy is not conserved! In other words, the forces between the two bodies can be non-conservative, and this equality still holds

A firework shell is launched at an angle, and just as it reaches the top of its trajectory (at which point it has speed V - all in the horizontal direction) it explodes into two pieces, each with half of the original mass. One fragment is observed to fall vertically down from the point of explosion. What does the other piece do? A. Also falls vertically down B. Recoils backwards from the explosion C. Continues forward with the same speed (V) it had just before. D. Continues forward with twice the speed (2V) E. There can't possibly be enough information to decide. Hint: Consider the motion immediately after the explosion, not the subsequent acceleration due to gravity.

A firework shell is launched at an angle, and just as it reaches the top of its trajectory (at which point it has speed V - all in the horizontal direction) it explodes into two pieces, each with half of the original mass. One fragment is observed to fall vertically down from the point of explosion. What does the other piece do? A. Also falls vertically down B. Recoils backwards from the explosion C. Continues forward with the same speed (V) it had just before. D. Continues forward with twice the speed (2V) E. There can't possibly be enough information to decide.

Elastic collisions Kinetic energy is conserved Corresponds to objects that bounce perfectly Inelastic collisions Kinetic energy is not conserved Corresponds to objects that don t bounce perfectly Totally Inelastic Collisions Corresponds to objects that stick together after colliding

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