(x,y)
The magnitude of its Velocity (Speed), and its Direction. These are the components of the Arrow (Vector) that represents its MOTION.
gravity
Gravity
(x, y) In most physics problems, projectile motion is shown on a 2-dimensional plane where x is the direction left and right, and y is the direction up and down.
Gravity
Projectile motion has two components horizontal motion and vertical motion. Gravity affects only the vertical motion of projectile motion.
The magnitude of its Velocity (Speed), and its Direction. These are the components of the Arrow (Vector) that represents its MOTION.
gravity
Gravity
(x, y) In most physics problems, projectile motion is shown on a 2-dimensional plane where x is the direction left and right, and y is the direction up and down.
Gravity
Gravity
The vertical motion is accelerated downwards, at a rate of about 9.8 meters per square second. The horizontal motion is not affected. This all assumes that air resistance is insignificant, and can therefore be ignored.
The main forces acting on a projectile are gravity, and air resistance.
three dimention
Projectile motion also known as trajectory this is one of the most famous examples of motion in two dimensions in other words a projectile experience motion in the horizontal and the vertical. the path taken by a projectile looks like a parabola (but it is not necessary for it to be a complete one ) there are some famous examples of trajectories like the motion set by a catapult or the motion set by a bullet.
No, it is uniformly decelerated for the first half and uniformly accelerated motion in the next half in two dimensions.