Object's mass and acceleration remain constant.
Object's speed increases linearly.
Object's distance fallen increases exponentially.
Projectile motion involves an object moving both horizontally and vertically, while free fall is when an object falls only vertically due to gravity. In projectile motion, the object has an initial horizontal velocity, while in free fall, the object is only affected by gravity.
No, a simple pendulum cannot oscillate during free fall motion because in free fall, the object is accelerating due to gravity and there is no restoring force acting on the object to cause oscillations.
Yes, free fall refers to the motion of an object falling solely under the influence of gravity, without any other forces acting upon it. The vertical component of motion in a free fall is the object's downward movement due to gravity.
Free fall is a type of motion where an object falls under the influence of gravity with no other forces acting upon it. During free fall, the object accelerates downwards at a constant rate of 9.8 m/s^2 on Earth.
An object is considered to be in free fall when it is only under the influence of gravity, with no other forces acting on it. In physics, free fall is the motion of an object solely under the influence of gravity, with no air resistance or other forces affecting its motion. This results in the object accelerating towards the Earth at a constant rate of 9.8 m/s2, regardless of its mass.
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Projectile motion involves an object moving both horizontally and vertically, while free fall is when an object falls only vertically due to gravity. In projectile motion, the object has an initial horizontal velocity, while in free fall, the object is only affected by gravity.
No, a simple pendulum cannot oscillate during free fall motion because in free fall, the object is accelerating due to gravity and there is no restoring force acting on the object to cause oscillations.
Yes, free fall refers to the motion of an object falling solely under the influence of gravity, without any other forces acting upon it. The vertical component of motion in a free fall is the object's downward movement due to gravity.
Free fall is a type of motion where an object falls under the influence of gravity with no other forces acting upon it. During free fall, the object accelerates downwards at a constant rate of 9.8 m/s^2 on Earth.
An object is considered to be in free fall when it is only under the influence of gravity, with no other forces acting on it. In physics, free fall is the motion of an object solely under the influence of gravity, with no air resistance or other forces affecting its motion. This results in the object accelerating towards the Earth at a constant rate of 9.8 m/s2, regardless of its mass.
An object is in free fall only if its motion is subject to being both only affected by gravity and only moving up or down.
The motion of an object resulting from only the force of gravity is free fall. In free fall, an object experiences only the acceleration due to gravity (9.8 m/s^2) and no other forces acting on it, causing it to accelerate downwards at a constant rate.
Free fall is the term in Newtonian physics used to describe the motion of an object under the influence of gravity alone. Such an object moves along a geodesic. One example of an object always in free fall is Earth's moon.
An object in free fall experiences a drag force due to air resistance. This force opposes the object's motion and slows it down as it falls through the air.
The way you can describe the motion of an object with words is that every time when you drop a really light object it a free fall and it doesn't have lot of gravity because it not havey it light and when you drop a havey object and a light object they fall the same time because they both have gravity except one is havey one I'd lighter
Yes, an object in free fall can be considered to be moving horizontally if it was given an initial sideways velocity. However, as the object falls, the vertical component of its motion will accelerate due to gravity, causing the object to ultimately move in a curved path known as a projectile motion.