0
What else can I help you with?
What is the flight path for tennis with topspin?
The flight path of a tennis ball with topspin follows a curved trajectory. When a player strikes the ball with topspin, the ball rotates forward, causing it to arc higher and then dip more sharply as it approaches the ground. This spin helps the ball maintain a higher trajectory for longer, making it more difficult for opponents to predict its bounce. Additionally, the topspin causes the ball to dip quickly after reaching its peak, allowing for a more aggressive shot that can still land inside the court.
How is projectile motion evident in tennis?
Projectile motion is evident in tennis when a player serves the ball. The ball follows a curved path as it travels from the server to the opponent's court due to the combination of horizontal motion (from the player's swing) and vertical motion (gravity pulling it down). This curved motion is a result of the ball's initial velocity and angle of projection.
What force causes a soccer ball to take a curved path when it is kicked?
The force that causes a soccer ball to take a curved path when it is kicked is called the Magnus effect. This effect occurs when the ball spins as it moves through the air, creating differences in air pressure around the ball that result in a curved trajectory.
Why does a falling ball fall in a curved path?
A falling ball follows a curved path due to the combination of its initial horizontal velocity and the acceleration due to gravity pulling it downward. As the ball falls, gravity acts on it, causing it to continuously accelerate vertically but not horizontally, resulting in a curved trajectory.
What force will cause a thrown ball to follow a curved path?
The force of gravity acting on the ball causes it to follow a curved path when thrown. As the ball moves forward, gravity pulls it downward, causing it to curve towards the ground. Other factors like air resistance and the initial velocity of the throw can also affect the path of the ball.
After the bullet has been fired from the weapon its curved path in flight through the air is known as its?
Trajectory.
When you throw a ball up into the air on a windy day the motion of your arm is a force that affects the flight path of the ball What other forces affects the path of the ball?
Some forcess that affect the path of the ball is gravity which pushes the ball down to earth and wind could effect the path by blowing the ball a certain direction.
Why does a basketball follow a curved path?
The curved path of a basketball results from the combined effects of the momentum imparted when you throw it, and the force of gravity, which continually bends what would otherwise be a straight path.
What do you call a curved path followed by a projectile?
A curved path followed by a projectile is called a trajectory. This is the path that an object takes when it is thrown or launched into the air.
Explain why when you throw a ball it travels in an arc and not in a perfectly straight line?
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.
What causes a ball to follow a curved path when you throw it?
When you throwa balland give it aforwardmotion, Gravity pulls the ball towards thecenter of earth. The ball has two motions ... horizontal (forward) and a downwardmotion. The horizontal speed is constant, or at least nearly constant, but thedownward speed is constantly growing because of the downward gravitational forceon the ball. A constant horizontal speed together with vertical acceleration is a surerecipe for a curved path.
What force causes the ball to move in a curved path?
The force that causes an object, like a ball, to move in a curved path is centripetal force. This force acts towards the center of the curve and is necessary to keep the object moving in a circular motion. Without centripetal force, the object would continue in a straight line tangential to the curve.
