4. what type of collision is
this?
velocities before the collision:
wagon 1: 0....
Physics, 12.11.2019 23:31, dlatricewilcoxp0tsdw
4. what type of collision is
this?
velocities before the collision:
wagon 1: 0.200 m/s
wagon 2: 0.00 m/s
highlight one to
momenta before the collision:
wagon 1: 0.100 kg mis wagon 2: 0.00 kg mis
total momentum: 0.100 kg mis
elastic or inelastic
kinetic energy before the collision:
wagon 1: 0.0100 j
wagon 2: 0.00
total kinetic energy: 0.0100 j
5. is the total momentum
the same before and after
this collision?
highlight one to
velocities after the collision:
wagon 1: 0.00 ms
wagon 2: 0.200 mis
yes or no
momenta after the collision:
wagon 1: 0,00 kg mis wagon 2: 0.100 kg mis
total momentum: 0.100 kg m/s
6. is the total kinetic
energy the same before
and after this collision?
kinetic energy after the collision:
wagon 1: 0.00 j
wagon 2: 0.01003
total kinetic energy: 0.0100 j
highlight one to
yes or no
Answers: 1
Other questions on the subject: Physics
Physics, 22.06.2019 02:10, cxttiemsp021
Akg a of 55 m at an of 11 ? . if is at 98 km/h, be ?
Answers: 1
Physics, 22.06.2019 10:30, Kathryn014
Light from a sodium lamp passes through a diffraction grating that has 1000 slits per millimeter. the interference pattern is viewed on a screen 1.000 m behind the grating. the first (m = 1) two bright yellow fringes that are visible are 0.7288 m and 0.7300 m from the central maximum. what are the wavelengths of these two fringes?
Answers: 2
Do you know the correct answer?
Questions in other subjects:
Mathematics, 29.10.2020 17:00
Mathematics, 29.10.2020 17:00
