Gravity and air resistance, after the initial impulse from the club (force x time)
there are 4 golfballs on the moon
The force of gravity is most responsible for the path of an object during projectile motion. It causes the object to follow a curved trajectory as it is pulled towards the center of the Earth.
The centripetal force is responsible for pulling objects toward the center of a circle as they move in a curved path. This force acts perpendicular to the velocity of the object, keeping it on a circular trajectory.
When a hand throws an object, it applies a force known as the "throwing force" or launching force. This force is responsible for giving the object its initial velocity and trajectory. The throwing force comes from the muscles in the hand, arm, and shoulder that propel the object forward.
The force of gravity is responsible for changing the velocity of a satellite, thus affecting its path or trajectory in space. This force influences the satellite's speed and direction, causing it to move in an elliptical orbit around a larger body such as a planet or a star.
Yes, a force such as gravity acts on a projectile, influencing its trajectory and motion. The force of gravity accelerates the projectile downward, affecting its path and causing it to follow a curved trajectory.
When a charged particle moves through a magnetic field, it experiences a force that causes it to change direction. This force is perpendicular to both the particle's velocity and the magnetic field, resulting in the particle moving in a curved path. This phenomenon is known as the Lorentz force and is responsible for the particle's trajectory being deflected in the presence of a magnetic field.
Force affects a projectile by determining its initial velocity and direction. The force is responsible for propelling the projectile forward and influencing its trajectory. The greater the force applied, the faster and farther the projectile will travel.
A tee.
Applying more force to the puck when shooting it can cause the puck to travel faster and farther, resulting in a higher trajectory.
Fluid force can affect the trajectory of a javelin by creating drag, which is resistance that opposes the motion of the javelin through the air. The greater the fluid force, the more drag the javelin will experience, leading to a deviation from its intended trajectory. Athletes may need to adjust their technique to minimize the impact of fluid forces on the javelin's flight path.
At the very top of its trajectory, the net force on the rock would be equal to zero, since the velocity at that point is momentarily zero. This means that the gravitational force pulling it down is exactly balanced by the force of the throw pushing it up.