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Increasing the initial horizontal velocity of an object would cause it to cover more horizontal distance in the same amount of time, leading to a longer horizontal range. The object would maintain the same vertical acceleration due to gravity, so it would still follow a parabolic trajectory but reach a farther horizontal distance before hitting the ground.
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What happen when an object thrown horizontally?
Your question is incomplete. It sounds like you are asking how the object falls. Aside from air resistance, the only force acting on it is the vertical component of gravity. Therefore, the object will fly a distance x = v (2d/g)1/2 where v is the horizontal velocity, d is the distance from the ground, and g is the acceleration of gravity.
Can the velocity of object reverse direction when its acceleration is constant?
Yes, the velocity of an object can reverse direction even when its acceleration is constant. This can happen when the object is subjected to an acceleration in the opposite direction to its initial velocity, causing it to slow down and eventually reverse direction.
Can direction of velocity of a body change when its acceleration is constant?
Yes, the direction of velocity of a body can change even when its acceleration is constant. This can happen if the acceleration and initial velocity of the body are not aligned in the same direction. The body will still experience a change in velocity due to the constant acceleration, which can lead to a change in direction.
Cart is rolling down a special ramp where there is no friction at all What will happen if the amount of mass on the cart is increased?
If the mass of the cart is increased, the kinetic energy of the cart will also increase as it rolls down the ramp. The velocity of the cart will increase as well, since the kinetic energy is directly proportional to both mass and velocity squared.
What would happen if you double velocity?
If you double the velocity of an object, its kinetic energy would increase by a factor of four because kinetic energy is directly proportional to the square of velocity. The object would also cover twice the distance in the same amount of time due to the increased speed.
If you keep the velocity of projection constant and change the angle of projection from 75 to 45 what will happen to the horizontal distance the projectile travels?
The horizontal distance will be doubled.
If mass and velocity of glider increased what will happen to the kinetics energy?
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.
What happen when an object thrown horizontally?
Your question is incomplete. It sounds like you are asking how the object falls. Aside from air resistance, the only force acting on it is the vertical component of gravity. Therefore, the object will fly a distance x = v (2d/g)1/2 where v is the horizontal velocity, d is the distance from the ground, and g is the acceleration of gravity.
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 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!
Can the velocity of object reverse direction when its acceleration is constant?
Yes, the velocity of an object can reverse direction even when its acceleration is constant. This can happen when the object is subjected to an acceleration in the opposite direction to its initial velocity, causing it to slow down and eventually reverse direction.
Can direction of velocity of a body change when its acceleration is constant?
Yes, the direction of velocity of a body can change even when its acceleration is constant. This can happen if the acceleration and initial velocity of the body are not aligned in the same direction. The body will still experience a change in velocity due to the constant acceleration, which can lead to a change in direction.
Cart is rolling down a special ramp where there is no friction at all What will happen if the amount of mass on the cart is increased?
If the mass of the cart is increased, the kinetic energy of the cart will also increase as it rolls down the ramp. The velocity of the cart will increase as well, since the kinetic energy is directly proportional to both mass and velocity squared.
What would happen if you double velocity?
If you double the velocity of an object, its kinetic energy would increase by a factor of four because kinetic energy is directly proportional to the square of velocity. The object would also cover twice the distance in the same amount of time due to the increased speed.
What is horizontal acceleration?
It is acceleration in the horizontal direction. This would happen as a result of a net horizontal force acting on a body.
Can a direction of velocity of an object reverse at constant acceleration?
Yes, the direction of an object's velocity can reverse even when it is experiencing constant acceleration. This can happen if the acceleration is in the opposite direction to the object's initial velocity.
An arrow is shot straight up at an initial velocity of 200 meters per seconds. How long will it be before beginning to fall?
The arrow will begin to fall when its velocity becomes negative, which will happen after it reaches its maximum height and starts to descend. The time it takes for the arrow to reach its peak height can be calculated using the formula: time = (final velocity - initial velocity) / acceleration. After reaching the peak, the arrow will take the same amount of time to fall back down.
Velocity formula?
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.
