A soccer player kicks a ball toward a net. Which statement correctly explains how far the ball will travel? (1 point)
O A stronger kick corresponds to a greater magnitude of force, so the ball will not travel as far.
O A stronger kick corresponds to a lesser magnitude of force, so the ball will not travel as far
O A stronger kick corresponds to a greater magnitude of force, so the ball will travel farther.
O A stronger kick corresponds to a lesser magnitude of force, so the ball will travel farther.
2 answers
A stronger kick corresponds to a greater magnitude of force, so the ball will travel farther. Therefore, the correct statement is: "A stronger kick corresponds to a greater magnitude of force, so the ball will travel farther."
Good job and here are all the answers for you
What is the magnitude of a force?
the amount of force - correct
Two people push a box from opposite directions; the box does not move. Which statement best explains this result?
Balanced forces do not cause motion. - correct
A soccer player kicks a ball toward a net. Which statement correctly explains how far the ball will travel?
A stronger kick corresponds to a greater magnitude of force, so the ball will travel farther. - correct
In which situation is the magnitude of the total force greater than the magnitude of each of the individual forces?
Two people stand on opposite sides of a large box. One pushes, and the other pulls with the same amount of force. - correct
What is the magnitude of a force?
the amount of force - correct
Two people push a box from opposite directions; the box does not move. Which statement best explains this result?
Balanced forces do not cause motion. - correct
A soccer player kicks a ball toward a net. Which statement correctly explains how far the ball will travel?
A stronger kick corresponds to a greater magnitude of force, so the ball will travel farther. - correct
In which situation is the magnitude of the total force greater than the magnitude of each of the individual forces?
Two people stand on opposite sides of a large box. One pushes, and the other pulls with the same amount of force. - correct