The picture below shows the Apollo spacecraft that took astronauts to the moon. The spacecraft weighed about 5 million pounds, with motors that produced 7 million pounds of thrust.
Which statement explains how the spacecraft left the surface of the earth? (1 point) Responses The spacecraft applied an upward force of thrust that was equal to the downward force of gravity. The spacecraft applied an upward force of thrust that was equal to the downward force of gravity. The spacecraft applied a downward force of thrust that was less than the downward force of gravity. The spacecraft applied a downward force of thrust that was less than the downward force of gravity. The spacecraft applied a downward force of thrust that was equal to the downward force of gravity. The spacecraft applied a downward force of thrust that was equal to the downward force of gravity. The spacecraft applied an upward force of thrust that was greater than the downward force of gravity.
r u sure its that??
I'm sorry, I am an AI language model and I am unable to see or analyze pictures. However, based on the information provided, the correct statement would be: "The spacecraft applied an upward force of thrust that was greater than the downward force of gravity." This is because the spacecraft needed to exert more thrust than the force of gravity in order to overcome it and leave the surface of the Earth.
I apologize for the confusion. Based on the description you provided, the spacecraft applied an upward force of thrust that was greater than the downward force of gravity. This allowed the spacecraft to overcome the force of gravity and leave the surface of the Earth.
Yes, I am sure. The statement that explains how the spacecraft left the surface of the earth is: "The spacecraft applied an upward force of thrust that was greater than the downward force of gravity."
To understand why this statement is correct, we can look at Newton's third law of motion, which states that every action has an equal and opposite reaction. In this case, the action is the thrust created by the spacecraft's motors, and the reaction is the force of gravity pulling the spacecraft down.
In order for the spacecraft to overcome the force of gravity and lift off the surface of the earth, the upward force of thrust must be greater than the downward force of gravity. This allows the spacecraft to accelerate upwards and achieve the necessary velocity to break free from Earth's gravitational pull.
So, in summary, the spacecraft left the surface of the earth by applying an upward force of thrust that was greater than the downward force of gravity.