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If gravity did not effect the path of a horizontally thrown ball the ball would travel horizontally?
If gravity did not affect a horizontally thrown ball, it would travel in a straight line horizontally at a constant velocity. Gravity only acts vertically, causing the ball to fall towards the ground, so without this vertical force, the horizontal motion would remain unaffected.
If gravity did not affect the path of a horizontally thrown ball the ball would .?
It would travel in a straight line until air resistance brought it to a standstill. It would then hover at that point - in mid-air forever. If air resistance is also removed from the scenario an even stranger thing will happen. The ball will continue in a straight line forever. But, because of the curvature of the earth, the earth's surface will drop away so that the ball will actually fly off into space. One problem with this thought experiment is that the concept of a "straight" line depends on gravity.
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.
What happens when i stand on the edge of a cliff and throw a ball into a canyon?
The ball will follow a parabolic trajectory as it moves through the air, influenced by gravity. Eventually, the ball will hit the ground of the canyon below. It will travel a distance horizontally and vertically before reaching the ground, with the exact path dependent on the initial velocity and angle at which it was thrown.
What do objects that are thrown or shot follow a curved path?
Objects that are thrown or shot follow a curved path due to the combination of their initial velocity and the force of gravity acting upon them. Gravity pulls the object downward, causing it to curve towards the ground as it moves horizontally. This curved path is known as a projectile motion.
If gravity did not affect the path of a horizontally thrown ball what would happen to the ball?
travel horizontally
If gravity did not effect the path of a horizontally thrown ball the ball would travel horizontally?
If gravity did not affect a horizontally thrown ball, it would travel in a straight line horizontally at a constant velocity. Gravity only acts vertically, causing the ball to fall towards the ground, so without this vertical force, the horizontal motion would remain unaffected.
If gravity did not affect the path of a horizontally thrown ball the ball would what?
The ball would continue straight without any gravitational forces acting on it, and without air resistance. If you consider air resistance, then the spin of the ball may give it a curved path, and eventually the ball would stop traveling as the air resistance slows down the ball.
What shape does the path of a thrown ball follow?
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 gravity did not affect the path of a horizontally thrown ball the ball would .?
It would travel in a straight line until air resistance brought it to a standstill. It would then hover at that point - in mid-air forever. If air resistance is also removed from the scenario an even stranger thing will happen. The ball will continue in a straight line forever. But, because of the curvature of the earth, the earth's surface will drop away so that the ball will actually fly off into space. One problem with this thought experiment is that the concept of a "straight" line depends on gravity.
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.
Curved path of an object thrown or launched on or near the surface of a planet?
The curved path of an object thrown or launched on or near the surface of a planet is called a trajectory. This trajectory is influenced by gravity, air resistance, and the initial velocity of the object. The shape of the trajectory can be parabolic for objects thrown horizontally, or elliptical for objects thrown at an angle.
What happens when i stand on the edge of a cliff and throw a ball into a canyon?
The ball will follow a parabolic trajectory as it moves through the air, influenced by gravity. Eventually, the ball will hit the ground of the canyon below. It will travel a distance horizontally and vertically before reaching the ground, with the exact path dependent on the initial velocity and angle at which it was thrown.
What do objects that are thrown or shot follow a curved path?
Objects that are thrown or shot follow a curved path due to the combination of their initial velocity and the force of gravity acting upon them. Gravity pulls the object downward, causing it to curve towards the ground as it moves horizontally. This curved path is known as a projectile motion.
Can a body thrown horizontally from top of building travel in straight path?
It will travel in a straight line as far as the x and z axises are concerned however in the Y axis the bodies path will be a inverted parabolic.
What does gravity do to the path of an object that is thrown horiziontally?
It doesn't matter whether the object is thrown down, up, horizontally, or diagonally. Once it leaves the thrower's hand, it is accelerated downward by an amount equal to acceleration of gravity on the planet where this is all happening. On Earth, if you throw an object horizontally, it accelerates downward at the rate of 9.8 meters per second2 ... just as it would if you simply dropped it. Whether it's dropped or thrown horizontally, it hits the ground at the same time.
Why throwing a ball always put down in curve not in straight?
-- The only horizontal force on a thrown ball is the force of air resistance, so the horizontal acceleration is very small, and the horizontal speed stays almost constant. -- The vertical force on a thrown ball is the force of gravity, so the ball accelerates straight down at the acceleration of gravity. -- The result of unequal horizontal and vertical components of acceleration is a curved path.
