The 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 upward force resists gravity’s downward force. The parachute’s upward 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 downward force resists gravity’s downward force. The parachute’s downward force resists gravity’s downward force. The parachute’s downward force resists gravity’s upward force.
The correct response is: The parachute's downward force resists gravity's downward force.
During the landing of the spacecraft, several forces come into play. The main force at work is gravity, which pulls the spacecraft downward towards the Earth. However, the parachute plays a crucial role in creating an opposing force to counteract gravity and slow down the descent.
The correct response is: The parachute's upward force resists gravity's downward force.
When the parachute is deployed, it creates drag or air resistance as it catches the air. This drag force acts in the opposite direction to the motion of the spacecraft, creating an upward force. This upward force counters the downward force of gravity and slows down the descent of the spacecraft.
So, in summary, the parachute's upward force resists gravity's downward force during the landing of the spacecraft.
The correct response would be:
The parachute's upward force resists gravity's downward force.