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The cart will move at a constant velocity.
The cart will move at a constant velocity.
Velocity: The changes happen in position is called velocity. Velocity is considered as the physical quantity. The magnitude and direction are necessary for this velocity.Velocity Formula :Unit: metre/second The formula for velocity is,`v=d/t`Here, the displacement is denoted as d and the time of the displacement is denoted as t.Velocity = change in position over a specific time intervalv= (xf - xo)/(tf - to)where xf is the final position and xo is the initial position.where tf is the final time and to is the initial time.
velocity can happen
When the speed (of falling) is increased, the force of gravitation will be the same, but the air resistance will increase. At some speed, the two will be in balance - there will be no more acceleration, and the object is said to have achieved terminal velocity.
The horizontal distance will be doubled.
Since Ek = 1/2 mv2 , That means that mass, velocity and the kinetic energy is directly proportional. So, if the mass and the velocity of the glider is increased so will be its Kinetic Energy of motion.
If you keep th velocity of projection and change the angle of projection from 75 degrees to 45 degrees what will happen to the horizontal distance the projectile travels? if you finish the nova net lesson you might learn the answer! It will travel a greater distance!
The cart will move at a constant velocity.
The cart will move at a constant velocity.
Velocity: The changes happen in position is called velocity. Velocity is considered as the physical quantity. The magnitude and direction are necessary for this velocity.Velocity Formula :Unit: metre/second The formula for velocity is,`v=d/t`Here, the displacement is denoted as d and the time of the displacement is denoted as t.Velocity = change in position over a specific time intervalv= (xf - xo)/(tf - to)where xf is the final position and xo is the initial position.where tf is the final time and to is the initial time.
Velocity: The changes happen in position is called velocity. Velocity is considered as the physical quantity. The magnitude and direction are necessary for this velocity.Velocity Formula :Unit: metre/second The formula for velocity is,`v=d/t`Here, the displacement is denoted as d and the time of the displacement is denoted as t.Velocity = change in position over a specific time intervalv= (xf - xo)/(tf - to)where xf is the final position and xo is the initial position.where tf is the final time and to is the initial time.
It is acceleration in the horizontal direction. This would happen as a result of a net horizontal force acting on a body.
velocity can happen
Hi there! Assuming that the deceleration (or negative acceleration, if you will) is constant and the same in both cases, you can use a special kinematic formula to solve the problem. The formula follows: (final velocity)^2 = (initial velocity)^2 + [ 2 * (deceleration) * (braking distance) ] Rearranged to our needs the formula reads: braking distance = [1/2] * -(initial velocity)^2 / (deceleration) * this equation assumes that the final velocity is zero If the initial speed were doubled then the general formula would read: braking distance = 2 * -(initial velocity)^2 / (deceleration) NOTICE that the two equations are the exact same except for the leading coefficients. 1/2 is assocaited with the braking distance of the normal velocity while 2 is assocated with the breaking distance of the doubled velocity. Since 2 is four times larger than 1/2, this leads us to the conclusion that the breaking distance for an object traveling at double a certain velocity would be 4x greater than the breaking distance of the object moving at the "regular" velocity.
It would move further out of the current orbit. Possibly into an unstable orbit & be flung from earth altogether (however, the people who design satellites are fairly smart and won't allow that to happen)
The magnitude of the velocity was quadrupled.