I think you'll get first the time then times 2. :) if i'm not mistaken..
An object in motion remains in motion unless acted upon by an unknown force objects in motion are affected by: -Gravity -Friction -Mass -Force -and other objects Objects in Freefall have a maximum velocity in freefall an object that is thrown straight up has no velocity during the middle of the time from it takes to toss and hit the ground. gravity is a constant 9.8m/s
An object thrown up from the surface of the Earth exhibits ballistic or projectile motion. Actually, it doesn't matter where it's "thrown" from; any object which accelerates only due to gravity follows a curve that's a conic section. This can be a circle, an ellipse, a parabola, or a hyperbola (technically, one branch of a hyperbola) depending on its initial velocity and starting position, and all of these are considered "ballistic" trajectories.
The ratio is 1: the motion is symmetric.
When an object is thrown up, the force of gravity acts on it in the opposite direction to its motion. This force causes the object to slow down and eventually come to a stop before falling back to the ground.
At the very top of its motion, the weight of the ball would be the same as its weight at any other point whether it is moving up, down, or at rest. Weight is the force of gravity acting on an object, which remains constant regardless of the object's motion.
If thrown directly upwards, it slows down due to gravitational attraction and aerodynamic drag. It reaches a maximum height and then falls. Its rate of descent is accelerated by the earth's gravity but decelerated by aerodynamic drag. If thrown at an angle, it follows a trajectory in which the vertical motion is accompanied by horizontal motion which is decelerated by aerodynamic drag.If you disregard drag, then the vertical motion is symmetrical: at any height the speed going up is exactly the same as the speed on descent. Also, for a body thrown at an angle, the trajectory is a parabola.
'Change up' is another name for a 'slow ball'. Where a fast ball may be thrown around 90 or so MPH, a change up would be thrown in the 75-80 MPH range. It is thrown with the same motion as a fast ball and is used to fool the batter into swinging early at the pitch.
The potential energy of the orange increases as its height increases when thrown up into the air. This is because the orange gains potential energy due to its vertical position relative to the ground, which is converted from its initial kinetic energy (motion) when it was thrown.
Yes he has thrown up before
Every object falls downward when thrown up due to the force of gravity. Gravity is a fundamental force that pulls objects towards the center of the Earth. When an object is thrown up, gravity acts to slow down and eventually reverse its motion, causing it to fall back towards the ground.
If by motion you mean velocity it is non uniform, because the velocity is changing due the acceleration of gravity slowing it down to zero. Then at the maximum height motion is reversed and it accelerates downward back to its original speed but in the opposite direction.
The speed decreases when an object is thrown vertically up because of the force of gravity acting against the object's upward motion. As the object goes higher, the force of gravity slows it down until the object reaches its maximum height, where its speed momentarily becomes zero before accelerating back downward.