They fall at the same rate. So if you aim at an object before it falls from a height and shoot just as it is released then the projectile will hit the falling object. This happens because gravity is always the same (at small heights) and has the same effect on the object with no horizontal displacement as it does on the projectile with horizontal displacement.
Projectile motion is the motion of an object that is going up from the surface of earth in an angle. Safe to say it falls under motion in a plane. Imagine you throw a ball at an angle of say 45deg. So the ball will rise up to that level where all of its kinetic energy has been converted into potential energy. This is made possible because of gravity.
Now this ball falls down in the same way it rose up. It will make a symmetrical parabolic path till the point where the energy of the ball is same as it had when it was thrown.
Free fall is not a projectile motion. Assuming no air friction a ball left from the top of a tower follows a uniform path in 1 dimension. But if the ball was thrown at an angle then it would classified as a projectile motion.
The downward component of the acceleration vector of a projectile is the same as the acceleration of an object falling straight down, 9.8 m/s^2 minus the upward component of the effect of drag.
In physics, a projectile moves vertically as well as in a horizontal direction. However, an object in vertical free-fall is moving only downward.
Because there is vertical force acting on the projectile (hint: the force of gravity),
whereas there is no horizontal force acting on it.
No, the angle of the vector determines both the horizontal and vertical motion.
Yes, that's a true statement.
Not if you can ignore air resistance, it doesn't.
well...projectile motion is made of two different motions, or movements- horizontal movement and vertical movement so... i guess that it
An arc or parabolic curve.
If any object is given a horizontal push, then it moves under the gravitational pull [vertical]. This combined motions leads to projectile motion. Same way archery too is 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.
Projectile motion has two components horizontal motion and vertical motion. Gravity affects only the vertical motion of projectile motion.
Not if you can ignore air resistance, it doesn't.
well...projectile motion is made of two different motions, or movements- horizontal movement and vertical movement so... i guess that it
well...projectile motion is made of two different motions, or movements- horizontal movement and vertical movement so... i guess that it
well...projectile motion is made of two different motions, or movements- horizontal movement and vertical movement so... i guess that it
well...projectile motion is made of two different motions, or movements- horizontal movement and vertical movement so... i guess that it
Horizontal and vertical components which need to be treated independently from each other when working out either the horizontal or vertical motion.
An arc or parabolic curve.
well...projectile motion is made of two different motions, or movements- horizontal movement and vertical movement so... i guess that it
If any object is given a horizontal push, then it moves under the gravitational pull [vertical]. This combined motions leads to projectile motion. Same way archery too is 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.
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.