The X component in projectile motion isn't impacted by gravity, but the Y component is. Since the Y component is impacted by gravity (also assuming you're on Earth) ...
The Y component's acceleration will be ~ +- 9.81 m/s^2
The X component is assumed to be 0 m/s^2 (disregard air resistance)
You can also assume the X component's velocity remains constant since there is 0 acceleration.
Using that information and information given, solve for time (using Kinematic formulas) and you should be able to derive all the information you need for projectile motion from that information. Hope that helps!
Gravity exerts force in only one direction. It's the direction along the line
between the centers of the two masses involved, and it's the direction we
call "down" (as soon as we figure out what direction gravity is acting in).
If you set up your coordinate axes so that one of them is aligned parallel
to 'down' (the direction of gravity), then gravity has no effect in either of
the other two components of space.
-- Gravity causes the vertical component of projectile motion to vary according to the local acceleration of gravity. -- Gravity has no effect at all on the horizontal component of projectile motion.
A feather falling in a vacuum is not considered as a projectile motion. Gravity, which is absent in a vacuum, is one of the components of projectile motion.
No, gravity is only one of the vectors in projectile motion.
gravity
Gravity
Projectile motion has two components horizontal motion and vertical motion. Gravity affects only the vertical motion of projectile motion.
-- Gravity causes the vertical component of projectile motion to vary according to the local acceleration of gravity. -- Gravity has no effect at all on the horizontal component of projectile motion.
A feather falling in a vacuum is not considered as a projectile motion. Gravity, which is absent in a vacuum, is one of the components of projectile motion.
No, gravity is only one of the vectors in projectile motion.
Horizontal and vertical components which need to be treated independently from each other when working out either the horizontal or vertical motion.
Projectile motion is a form of motion wherein an object moves along a curved path under the action of gravity only. The height of a projectile in motion is dependent on gravity.
gravity
Gravity
Gravity
Gravity
The type of motion that describes the horizontal component of a projectile is horizontal projectile motion. It is influenced by the downward force of gravity.
gravity