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.
The path that a thrown object follows is called a projectile path, which is determined by the initial velocity and angle of the throw. The object moves in a curved trajectory, influenced by gravity pulling it downward. The shape of this path is typically a parabolic curve.
The curved path an object takes when it is thrown is called a projectile motion. It is influenced by both the initial velocity of the object and the force of gravity acting on it. The shape of the path is typically parabolic.
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.
A thrown object follows a curved path due to the combination of its initial velocity and the force of gravity acting on it. The horizontal velocity propels the object forward, while the vertical force of gravity causes it to accelerate downward, resulting in a curved trajectory. This combination of horizontal and vertical motion gives rise to a curved path.
Objects that are thrown follow a curved path due to the influence of gravity and the initial forward velocity given to the object. Gravity pulls the object downward, causing it to accelerate, while the initial forward velocity allows the object to travel horizontally. The combination of these two forces results in the object following a curved trajectory known as a parabola.
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.
Calculating the path of an object when acted on by a continual force (like a ball thrown where there is gravity)
The path of motion of a thrown javelin is an example of projectile motion, where the object follows a curved trajectory under the influence of gravity. It can be described by the horizontal and vertical components of its motion independently.
When an object is thrown in the air, it follows a curved path known as a projectile motion. Initially, the object rises until its velocity decreases to zero, then it falls back down due to gravity. The object's motion is influenced by factors like its initial velocity, angle of launch, and air resistance.
The motion of an object thrown at an angle is a combination of both horizontal and vertical motion. The horizontal motion is constant and is controlled by the initial velocity in the x-direction. The vertical motion is influenced by gravity, causing the object to follow a curved path.
True. Projectile motion describes the curved path an object follows when thrown or projected near the Earth's surface, under the influence of gravity, while also moving horizontally.
Objects follow a curved path when thrown due to a combination of gravity pulling them downwards and their initial forward velocity. The force of gravity causes the object to accelerate towards the ground, while the forward velocity gives it horizontal motion, resulting in a curved trajectory known as a projectile motion.