No, the shot bullet will land after the dropped bullet. This is because the shot bullet has an initial horizontal velocity in addition to the vertical acceleration due to gravity, while the dropped bullet only has the vertical acceleration due to gravity.
No, the bullet that is shot will continue to travel at a high speed until it hits something, while the dropped bullet will fall to the ground due to gravity. The two bullets will not land together.
No, when a bullet is shot straight up, it will not land in the same place it was shot from. This is because as the bullet ascends, it loses its forward momentum and is affected by gravity, causing it to fall back down at a different location.
No, horizontal speed does not affect gravity. Gravity acts vertically and is the same for all objects regardless of their horizontal speed. However, horizontal speed can affect the trajectory of an object's motion in relation to gravity.
pp = shot He has shot his last bullet.
Yes, a bullet shot into the air can come down with enough force to cause serious injury or death. This is known as a "falling bullet" or "stray bullet" phenomenon, and it is important to never shoot a firearm into the air as the bullet can still retain lethal velocity when descending.
No, the bullet that is shot will continue to travel at a high speed until it hits something, while the dropped bullet will fall to the ground due to gravity. The two bullets will not land together.
No, when a bullet is shot straight up, it will not land in the same place it was shot from. This is because as the bullet ascends, it loses its forward momentum and is affected by gravity, causing it to fall back down at a different location.
No. The horizontal distance depends on how close the the ground the gun is. From the firing position, a bullet dropped to the ground will strike the ground in the same time as a bullet shot horizontally forward.
As long as the barrel is precisely level with the ground, gravity will pull them to the Earth at the same rate.
Because the horizontal and vertical motion of an object are separate. This means that a thrown object will accelerate with the same amount of acceleration as a dropped object (about 9.8 m/s2 acceleration due to gravity) causing them to hit the ground at the same time
No, horizontal speed does not affect gravity. Gravity acts vertically and is the same for all objects regardless of their horizontal speed. However, horizontal speed can affect the trajectory of an object's motion in relation to gravity.
In theory, if a bullet dropped vertically at the same instant that a bullet is fired horizontally from a gun at the same height, they should both hit the ground at the same time.This example is used to emphasize that that horizontal motion and vertical motion may be analysed separately since they occur independently of each other.This is one of those things that works better in theory than in practice.There is a caveat that is important if you consider doing this in the real world. The process is not happening in a vacuum. The aerodynamics of the bullet fired at high speed is tremendously important. In early gun design, this was not understood and bullets fired from guns were very inaccurate and went up or down or right or left in unpredictable ways. Modern guns stabilize the trajectory by putting a spin on the bullet. The result makes the bullet act like a gyroscope and then to remain pointed forward when it encounters small anomalies in the air and wind. So, the moving bullet is subjected to vertical forces and can not be expected to drop at the same rate as a bullet with no horizontal motion.The principle of independent horizontal and vertical motion works better when illustrated by throwing and dropping heavy rocks. The principle is entirely correct, but there are more vertical forces involved than gravity with the bullets.
The theory is actually if you shoot at a 90 degree angle perpendicular with the same height as a dropped bullet, then the two bullets would hit the ground at the same time..100 degrees would cause the bullet to fire above the height that it was shot, there for taking longer to hit the ground than the bullet that was not subject to an upward vector.This 90 degree theory is a common misconception because many people know that gravity pulls any object with a constant acceleration of 9.8m/s until terminal velocity has been reached, Therefore a bullet dropped from the same altitude as the muzzle will land simultaneuosly projectile.. THEORETICALY SPEAKING..v All this basically says that a bullet fired at a 90 degree angle (without wind) will go slightly up and to the right. And with wind, the bullet will go depending on the angle the wind hits the bullet. This is also known as 'kentucky drift'vThe Magnus Effect:The phenomenon whereby a spinning object flying through the air creates a whirlpool of air around itself, and experiences a force perpendicular to the vector (line of motion)Given the anular vector (V) of wind, and the V of the projectile, the resulting force Fm can be calculated with this formulaFm=S(wV x pV)
projectile
Because that was the way it was loaded into the gun, shot charge, bullet charge, shot charge, bullet charge. If you load it that way, it will shoot that way.
If a gun was parallel with the earth and was fired and at that very instant someone standing by the barrel dropped a bullet from beside the barrel, both bullets would hit the ground at the same time. Bullets start falling the instant they leave the end of the gun barrel. That is why hunters hold their rifles at an upward angle. It looks like the bullet will shoot up into the sky. The bullet will follow a curved path toward its target.
Yes, have you ever had a shot dropped in your beer before?