Introduction to collisions
learning goal:
to understand how to find the vel...
Introduction to collisions
learning goal:
to understand how to find the velocities of objects after a collision.
there are two main types of collisions that you will study: perfectly elastic collisions and perfectly inelastic collisions. when two objects collide elastically, both total kinetic energy and total momentum are conserved. these two conservation laws allow the final motion of the two objects to be determined. when two objects collide inelastically, total momentum is conserved, but the total kinetic energy is not conserved. after an inelastic collision the two objects are stuck together, and thus travel with the same final velocity; this fact, together with conservation of momentum, allows the final motion of the two objects to be calculated.
in reality, there is a range of collision types, with elastic and perfectly inelastic at the extreme ends. these extreme cases allow for a more straightforward analysis than the in-between cases. the applet at the end of the problem will give you a chance to explore the "in-between" collisions.
let two objects of equal mass m collide. object 1 has initial velocity v, directed to the right, and object 2 is initially stationary.
part a
if the collision is perfectly elastic, what are the final velocities v1 and v2 of objects 1 and 2?
give the velocity v1 of object 1 followed by the velocity v2 of object 2, separated by a comma. express each velocity in terms of v.
v1,v2 =
part b
now suppose that the collision is perfectly inelastic. what are the velocities v1 and v2 of the two objects after the collision?
give the velocity v1 of object 1 followed by the velocity v2 of object 2, separated by a comma. express the velocities in terms of v.
v1,v2 =
part c
now assume that the mass of object 1 is 2m, while the mass of object 2 remains m. if the collision is elastic, what are the final velocities v1 and v2 of objects 1 and 2?
give the velocity v1 of object 1 followed by the velocity v2 of object 2, separated by a comma. express the velocities in terms of v.
v1,v2 =
part d
let the mass of object 1 be m and the mass of object 2 be 3m. if the collision is perfectly inelastic, what are the velocities of the two objects after the collision?
give the velocity v1 of object 1 followed by the velocity v2 of object 2, separated by a comma. express the velocities in terms of v.
v1,v2 =
Answers: 2
Another question on Physics
Physics, 22.06.2019 00:30
Comedians like to joke that the reason we haven’t been visited by intelligent life from elsewhere in the universe is that aliens have been monitoring earth’s broadcasts of intellectually embarrassing tv programs, like gilligan’s island, fear factor, the jersey shore, and the jerry springer showand so consider us far too primitive to merit a visit. let’s check the assertion that aliens could have been receiving them. tv programs are broadcast at a frequency of about 100mhz with about 100kw of total power in 30frames per second, which emanatesroughly uniformly in all directions. assume that interstellar space transmits these broadcasts without attenuation. no matter how smart they are, aliens would require at least one photon per frame to interpret our signals. findthe number of photons per unit time per unit area reaching a receiver on a possible planet in the nearest star system, which is about 4 light-years away (a light-year is the distance light travels in a year). if aliens aimed a receiver or detector directly at earth, how big (in diameter) would it have to be to receive a photon per frame
Answers: 2
Physics, 22.06.2019 18:00
Gabby calls her cousin who lives in a different state and tells her to turn her radio to channel 98.7 so they can listen to their favorite song that is playing. her cousin turns her radio to 98.7, but does not hear the same song gabby hears. which most likely explains why?
Answers: 1
Physics, 22.06.2019 20:40
Aloop of wire is in a magnetic field such that its axis is parallel with the field direction. which of the following would result in an induced emf in the loop? choose all that apply. a loop of wire is in a magnetic field such that its axis is parallel with the field direction. which of the following would result in an induced emf in the loop? choose all that apply. moving the loop outside of the magnetic field region. spin the loop such that its axis does not consistently line up with the magnetic field direction. change the magnitude of the magnetic field. change the diameter of the loop
Answers: 1
Physics, 23.06.2019 08:30
The momentum of a man riding his bicycle downhill can be calculated. the bicycle and the man have a combined mass of 40 kg. the velocity of the bicycle is 10 m/s. calculate the momentum.
Answers: 1
You know the right answer?
Questions
Mathematics, 22.05.2021 01:20
Mathematics, 22.05.2021 01:20
English, 22.05.2021 01:20
Mathematics, 22.05.2021 01:20
History, 22.05.2021 01:20
English, 22.05.2021 01:20
Mathematics, 22.05.2021 01:20
English, 22.05.2021 01:20
