look up naked penus
Wow. Some people have nothing to do but waste time.
There is no way to answer that as asked A very general answer is, whatever angle will cause the projectile to land where you want it to.
The half maximum range of a projectile is launched at an angle of 15 degree
yes it does. you see if you have it set up at a a 90 degree angle it will go further than it would of a 10 degree angle A projectile leaving the ground at an angle of 45 degrees will attain the maximum range. Fire it straight up and it will fall back to its launch location (wind effects etc. ignored). Fire it horizontally and it will hit the ground very much the same time as if it was dropped from its launch platform at the same time. That would not be very far.
Get the value of initial velocity. Get the angle of projection. Break initial velocity into components along x and y axis. Apply the equation of motion .
At 45° angle.
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The vertical component of the projectile's motion is uniformly accelerated, no matter what the angle of launch was.
The half maximum range of a projectile is launched at an angle of 15 degree
in a frictionless vacuum, 45°, otherwise (on earth), aim to have the projectile release when the arm is at about 40° from the base
Some of the factors that determine the movements of a projectile include: air resistance, force of gravity, initial launch velocity, the angle a projectile was launched at, and the objects initial elevation.
yes it does. you see if you have it set up at a a 90 degree angle it will go further than it would of a 10 degree angle A projectile leaving the ground at an angle of 45 degrees will attain the maximum range. Fire it straight up and it will fall back to its launch location (wind effects etc. ignored). Fire it horizontally and it will hit the ground very much the same time as if it was dropped from its launch platform at the same time. That would not be very far.
The range of projectile is maximum when the angle of projection is 45 Degrees.
A launch angle of 45 degrees (above horizontal) maximizes the range of a projectile.
Get the value of initial velocity. Get the angle of projection. Break initial velocity into components along x and y axis. Apply the equation of motion .
The [horizontal] range of a projectile is maximised when it shoots at a 45 degree angle. This is true if air resistance is ignored so that the only force acting on the projectile is gravity.
As you know best places satellite launch to space is to be equator plane of earth. Because gravity is less than polar. Acording to the Napier rules, your launch angle must be equal latitute angle if you launch a thing to space. Thanks to all.
Easy . Think of it like this. The higher you angle your catapult (or whatever your using.) The higher it will travel but it will have less power. If you have a lower angle you will have more power but it your projectile will hit the ground first. If you don't understand just play around with a slingshot and an empty can of soda. Or you could test it out this theory by playing around with angry birds ;)
We would object to that statement, and argue that the motion of a projectile after launch is determined by the speed and direction of the launch.