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 a soccer ball is kicked, the main forces acting on it are the force applied by the kicker's foot, gravity pulling the ball downward, and air resistance opposing the ball's motion through the air. Additionally, there may be frictional forces between the ball and the ground upon impact.
The force of friction is not acting upon a ball that is thrown in the air. Friction is a force that opposes motion, but when a ball is thrown in the air, there is no surface contact for friction to act upon.
If there were no friction or obstacles, the ball would roll in a straight line indefinitely due to inertia. Without any forces acting upon it, the ball would maintain its velocity and direction.
The state of equilibrium of a rolling ball occurs when the forces acting on it are balanced, resulting in no acceleration. In this state, the ball will continue rolling at a constant speed in a straight line unless acted upon by an external force.
Yes, an object at rest can still have forces acting upon it. These forces may include gravitational forces, normal forces, frictional forces, or applied forces. These forces can either be balanced, resulting in the object remaining at rest, or unbalanced, causing the object to start moving.
When a soccer ball is kicked, the main forces acting on it are the force applied by the kicker's foot, gravity pulling the ball downward, and air resistance opposing the ball's motion through the air. Additionally, there may be frictional forces between the ball and the ground upon impact.
The force of friction is not acting upon a ball that is thrown in the air. Friction is a force that opposes motion, but when a ball is thrown in the air, there is no surface contact for friction to act upon.
The net force acting on the object.
The ball follows a parabolic path when thrown. In a vacuum (with no air or other forces acting upon it) the gravitational pull of the earth causes the ball to accelerate toward the earth (9.8m/sec
If there were no friction or obstacles, the ball would roll in a straight line indefinitely due to inertia. Without any forces acting upon it, the ball would maintain its velocity and direction.
It moves.
The state of equilibrium of a rolling ball occurs when the forces acting on it are balanced, resulting in no acceleration. In this state, the ball will continue rolling at a constant speed in a straight line unless acted upon by an external force.
Yes, an object at rest can still have forces acting upon it. These forces may include gravitational forces, normal forces, frictional forces, or applied forces. These forces can either be balanced, resulting in the object remaining at rest, or unbalanced, causing the object to start moving.
Yes, the object can have equal forces acting in opposite directions: 5N ->[]<- 5N The object will have forces acting upon it, but will not move.
When forces acting on a body are unbalanced, the body will experience acceleration in the direction of the net force. This acceleration causes the body to change its velocity, resulting in motion. The body will continue to accelerate until the forces acting upon it become balanced.
Something is weightless when there are no gravitational forces acting upon it.
The body accelerates.