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.
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.
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.
The curved path is the result of gravity and inertia acting on the ball. As it leaves the table gravity pulls it to the ground at an increasing rate while inertia keeps it moving in its original direction. The table prevents the rolling ball from falling thus negating that curvature caused by gravity, and making it follow a straight line.
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.
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.
The trajectory
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.
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.
The curved path is the result of gravity and inertia acting on the ball. As it leaves the table gravity pulls it to the ground at an increasing rate while inertia keeps it moving in its original direction. The table prevents the rolling ball from falling thus negating that curvature caused by gravity, and making it follow a straight line.
No! They are in orbit because of earth's gravity. If they were beyond the pull of earth's gravity, they would fly off and never return. Everything that is in orbit around earth is falling towards earth. Their orbital velocity is great enough so that it compensates for the downward pull.When you throw a ball it falls in a curve. Throw it harder and the ball will fall farther away but will still fall along a curve. Throw it as hard as possible and it will still follow a curved path and eventually land. Gravity causes it to fall along a curve. Now imagine throwing a ball SO HARD that it returns to you from the opposite direction. Gravity has been pulling on it causing it to move along a curved path, but its velocity sends it around earth in an orbit.
No! They are in orbit because of earth's gravity. If they were beyond the pull of earth's gravity, they would fly off and never return. Everything that is in orbit around earth is falling towards earth. Their orbital velocity is great enough so that it compensates for the downward pull.When you throw a ball it falls in a curve. Throw it harder and the ball will fall farther away but will still fall along a curve. Throw it as hard as possible and it will still follow a curved path and eventually land. Gravity causes it to fall along a curve. Now imagine throwing a ball SO HARD that it returns to you from the opposite direction. Gravity has been pulling on it causing it to move along a curved path, but its velocity sends it around earth in an orbit.
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.
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.
If the bus is moving at a constant horizontal velocity relative to you and the ball, there is no horizontal acceleration and therefore no horizontal force. The only force acting on the ball is gravity, which is vertical, so the ball will just fall straight down next to you.
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.
A path of free fall is an orbit. The combination of gravity, and angular momentum, cause an orbiting object to move in a circular or elliptical path which, unlike the more usual kind of falling, doesn't reach the ground.
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.