he spacecraft shown below weighs 6.1 million pounds. The rocket produces 7.5 million pounds of thrust. When the spacecraft falls back to earth, a parachute helps it fall safely. Explain the forces acting during this landing. (1 point) Responses The parachute’s downward force resists gravity’s downward force. The parachute’s downward force resists gravity’s downward force. The parachute’s upward force resists gravity’s upward force. The parachute’s upward force resists gravity’s upward force. The parachute’s upward force resists gravity’s downward force. The parachute’s upward force resists gravity’s downward force. The parachute’s downward force resists gravity’s upward force.
The correct response is: The parachute's upward force resists gravity's downward force.
The parachute's downward force resists gravity's downward force.
During the spacecraft's landing, there are two main forces at play: gravity and the parachute's force.
Gravity is always acting downwards, pulling the spacecraft towards the Earth. This force is responsible for the spacecraft falling back to Earth.
On the other hand, the parachute's force opposes gravity. When the parachute is deployed, it creates air resistance and generates an upward force. This upward force counteracts gravity's downward force, slowing down the descent of the spacecraft and allowing it to land safely.
So, the correct response would be: The parachute's upward force resists gravity's downward force.