It would depend on the gravitational field and the density of the medium through which it travels.
Depends on the medium through which it is traveling.
Assuming that you travel 882 feet in a straight line, the average velocity is 882.5 = 176.4 feet per second.
16,200 feet per hour.
One light year, or the distance that a beam of light can travel in one year, at 186,000 miles per second.
You are traveling 10 min 2 seconds. Therefore, you are traveling 5 m per second. (or 300 m per minute or 18,000 m per hour).
Ignoring the effects of wind and air-resistance in general, maximum projectile range results when the projectile is launched/fired in a direction 45 degrees above the horizontal.
Assuming the angle is the angle the initial trajectory makes with the ground, that it's launched with the same speed in both cases, that it's launched from an initial height of zero, that it stops dead as soon as it touches the ground and doesn't bounce or roll, and that we can neglect air resistance (sorry for all that detail, but it does matter)... Both projectiles will end up with the same net displacement, though the 60 degree projectile will have taken a longer path to get there.
A trajectory is the angle made with the horizontal when a projectile is fired. Suppose the projectile is a cannon ball. Assuming air is frictionless, that cannon ball will travel the greatest distance if the trajectory is 45 degrees from horizontal.
A trajectory of 45 degrees elevation gives the longest horizontal travel- (not taking air drag into consideration nor any aerodynamic properties of a projectile.
If you keep th velocity of projection and change the angle of projection from 75 degrees to 45 degrees what will happen to the horizontal distance the projectile travels? if you finish the nova net lesson you might learn the answer! It will travel a greater distance!
Sky travel was first launched in 2003. It showed extensive programs about travel.
The weight of a trebuchet affects the distance the ball will travel because it determines the amount of kinetic energy that can be transferred to the projectile. A heavier trebuchet will have more potential energy, which, when released, will result in a greater velocity and thus a longer distance for the ball to travel. However, other factors, such as the counterweight position and design, also play a role in determining the range of the projectile.
6 degrees. There are 360 degrees in a full circle, and therefore for every second the hand moves through one sixtieth of a circle.
360
it will be about 54000 or around there 3,240,000 ft then convert ft to mtrs then to miles
True, at relatively low speeds, if the projectile was launched at maybe the speed of light, improbable as it is, this may give it enough momentum to carry on past the point were the planet's gravity has a large effect on its motion and therefore carry on moving away from the planet until stopped by another force, however, even if the initial velocity of the projectile is the same as that planets escape velocity (the speed it needs to travel at to leve the planet) this speed is not constant and the projectile will feel a very large force from the gravity of the planet and hence be brought back down to its surface
If you do not take air resistance into account, a projectile fired at 45° above horizontal will travel farther than a projectile fired at any other angle.