The two forces that act on the ball after it leaves your hand
are gravity and air resistance.
When you throw a ball, two main forces are acting on it: the force of your throw propels the ball forward, while gravity pulls it downward towards the ground. The interaction of these two forces determines the ball's trajectory and how far it will travel.
When you throw a ball, two forces are typically acting on it: the force exerted by your hand pushing the ball forward, and the force of gravity pulling the ball down towards the ground.
When you throw a ball, the main forces acting upon it are gravity, which pulls it downward, and the force of your throw, which propels it forward. Air resistance or drag also acts against the ball's motion, slowing it down as it travels through the air.
When you throw a ball, you mainly use the force generated by your muscles to propel the ball forward. This force is transferred to the ball through your arm. Additionally, the force of gravity acts on the ball once it is released, causing it to fall towards the ground.
Some examples of balanced forces in basketball are a player dribbling the ball with constant speed, a player holding their position when guarding an opponent, and a player shooting a free throw without any external forces acting on the ball. These situations demonstrate equilibrium between the forces applied by the player and the opposing forces.
When you throw a ball, two main forces are acting on it: the force of your throw propels the ball forward, while gravity pulls it downward towards the ground. The interaction of these two forces determines the ball's trajectory and how far it will travel.
When you throw a ball, two forces are typically acting on it: the force exerted by your hand pushing the ball forward, and the force of gravity pulling the ball down towards the ground.
When you throw a ball, the main forces acting upon it are gravity, which pulls it downward, and the force of your throw, which propels it forward. Air resistance or drag also acts against the ball's motion, slowing it down as it travels through the air.
The ball will not be affected by drag. Only gravity will affect its trajectory.
Kinetic energy, momentum, gravity.
When you throw a ball, it follows a curved path due to a combination of two forces: gravity pulling the ball downward and the initial forward velocity you give the ball. The force of gravity causes the ball to accelerate downward, while the initial forward velocity causes the ball to move horizontally. These two forces interact to create the ball's curved trajectory known as an arc.
When you throw a ball, you mainly use the force generated by your muscles to propel the ball forward. This force is transferred to the ball through your arm. Additionally, the force of gravity acts on the ball once it is released, causing it to fall towards the ground.
yes but explain what happens when it is
no i don't think so but when this happens you either tip the table, flick the ball or pick it up and throw it in the middle again
Some examples of balanced forces in basketball are a player dribbling the ball with constant speed, a player holding their position when guarding an opponent, and a player shooting a free throw without any external forces acting on the ball. These situations demonstrate equilibrium between the forces applied by the player and the opposing forces.
If you double dribble in basketball , the other team gets the ball on the side and has to throw it in .
The play continues and one of the other fielders will have to run over to where the ball is and retrieve it and throw it in to keep the base runners from advancing.