Which statement explains why astronauts appear to bounce when they are walking on the moon? Gravity and Air Resistance Quick Check,
Help please!
1. The force of gravity acting on the astronauts is weaker on the moon than on Earth.
2. The force of air resistance acts more strongly on the sheet of paper than on the nickel.
3. They can spread their bodies to slow their acceleration.
4. air resistance
1.Which statement explains why astronauts appear to bounce when they are walking on the moon?
D. The force of gravity acting on the astronauts is weaker on the moon than on Earth.
____________________________________________________________2.A nickel and a sheet of paper, which have approximately the same mass, are dropped at the same time from the same height. The nickel will reach the ground first. Which statement best explains this result?
B.The force of air resistance acts more strongly on the sheet of paper than on the nickel.
____________________________________________________________3.Groups of skydivers need to navigate through the air during a jump to get into a formation. How can skydivers who are below the formation join the group?
B.They can spread their bodies to slow their acceleration.
____________________________________________________________4.Which force acts on falling objects to oppose gravity?
C. air resistance
They mix up the answers so I wouldnt trust it is tone, but if you want to. Go ahead, no one is stopping you. But I'll post my answers in a bit .
Name is right
1. The force of gravity acting on the astronauts is weaker on the moon than on Earth.
2. The force of air resistance acts more strongly on the sheet of paper than on the nickel.
3. They can spread their bodies to slow their acceleration.
4. air resistance
There you go guys
Name is correct I got a 100%
Gravity and Air Resistance Quick Check 2023
1)It stops accelerating.
2)The greater the object’s surface area, the more air resistance it encounters.
3)Vt=2w/dACd
4)363 m/s
5)a typical meteorite’s weight, surface area, and coefficient of drag; air density close to Earth
This is for gaca people
Name is 100% correct for 2022
Ya'll are correct.
Sayonara~