A projectile thrown with a greater velocity would travel a greater distance. Velocity is not just speed but direction as well.
A projectile that is thrown with an initial velocity,that has a horizontal component of 4 m/s, its horizontal speed after 3s will still be 4m/s.
depends on the angle with which it is thrown, the velocity given to it.
a projectile is the answer
A projectile.
At the top of the path, the projectile stops rising and starts falling. The vertical component of velocity at that point is zero.
A projectile thrown with a greater velocity would travel a greater distance. Velocity is not just speed but direction as well.
A projectile thrown with a greater velocity would travel a greater distance. Velocity is not just speed but direction as well.
A projectile that is thrown with an initial velocity,that has a horizontal component of 4 m/s, its horizontal speed after 3s will still be 4m/s.
if a body is thrown having initial velocity and make angle with ground this body is known as projectile and the way is calle trajectory
Acceleration is dependent on the initial velocity of how fast the object is leaving the projectile. The vertical acceleration is greater when the object is falling than when the object reaches the peak in height. However, if the object is thrown horizontally and there is no parabola in its shape then there is not as great of an acceleration.
depends on the angle with which it is thrown, the velocity given to it.
when a body is thrown at an angle in a projectile motion, the vertical component of the velocity is vcos(B) ..where v is the velocity at which the body is thrown and B represents the angle at which it is thrown.Similarly horizontal component is vsin(B). these components are useful in determining the range of the projectile ,the maximum height reached,time of ascent,time of descent etc.,
a projectile is the answer
A projectile.
Yes!
A ball thrown down. The thrown ball will have a greater initial velocity and since they experience the same force of gravity, it will always be faster (until they both reach terminal velocity).
At the top of the path, the projectile stops rising and starts falling. The vertical component of velocity at that point is zero.