At 45° angle.
55
The half maximum range of a projectile is launched at an angle of 15 degree
180 Degree
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 range of projectile is maximum when the angle of projection is 45 Degrees.
Launch velocity: A higher launch velocity can result in a larger angle of release for a projectile. Launch height: The height from which the projectile is launched can impact the angle of release. Air resistance: Air resistance can affect the trajectory of a projectile and therefore the angle of release. Gravity: The force of gravity influences the path of a projectile, affecting the angle of release. Wind conditions: Wind speed and direction can alter the angle of release needed for a projectile to reach its target.
The optimal launch angle for the longest distance of a projectile is 45 degrees in the absence of air resistance. This angle allows for the greatest horizontal distance because it balances the vertical and horizontal components of the projectile's velocity.
At 45° angle.
A half projectile refers to the projectile motion of an object where it is launched at an angle of 45 degrees to the horizontal. This angle maximizes the range of the projectile for a given initial velocity, making it travel the furthest distance before hitting the ground. The path of the projectile is a parabolic curve.
h=u^2 sin^2x / 2g . where x is angle of release and h is the height of the projectile.
55
The half maximum range of a projectile is launched at an angle of 15 degree
The range of a projectile is influenced by both the initial velocity and launch angle, while the height of the projectile is affected by the launch angle and initial height. Increasing the launch angle typically decreases the range but increases the maximum height of the projectile.
Yes, the path of an object's projectile motion can depend on the angle of a catapult. Changing the angle at which the object is launched from the catapult would alter the initial velocity and direction of the projectile, affecting its trajectory and resulting in a different path.
The pull back angle of a catapult affects the distance by determining the trajectory of the projectile. A larger pull back angle typically results in a higher launch angle, which can increase the distance the projectile travels. However, the optimal pull back angle depends on various factors, such as the weight of the projectile and the force of the launch mechanism.
180 Degree