Wiki User
∙ 12y agoAt a certain angle - 45 degrees if the starting point and end point are at the same level, and air resistance can be ignored - and at a certain speed, the range is maximum. Both for lower and for higher angles, you get a lower range.
Wiki User
∙ 12y agoThe half maximum range of a projectile is launched at an angle of 15 degree
Without considering any effects of air resistance and wind, the angle of projection that delivers the greatest horizontal range is 45 degrees above the horizon. Anything different ... either more or less than 45 degrees ... reduces the range.
45 degrees.
"the higher the altitude the lower the range "
15.42 degrees
For a projectile launched at an angle θ, the range is the same for angles of θ and (90-θ) degrees. This is because the horizontal and vertical components of the initial velocity are the same for these angles, resulting in the same horizontal range.
To enable constant velocity. It keeps a shaft turning through a range of angles.
The domain (input) is all possible angles. The range (output) is -1 to +1.
The range of projectile is maximum when the angle of projection is 45 Degrees.
Two different angles can lead to the same range because the same horizontal distance can be covered by projectiles launched at different launch angles. The range of a projectile is influenced by both its initial velocity and the launch angle. When two different launch angles result in the same horizontal distance traveled, it means that despite the difference in trajectory, the vertical and horizontal components of the motion combine in such a way that the projectile lands at the same distance.
Complementary angles refer to angles that add up to 90 degrees. When launching a projectile at complementary angles, the vertical components of the velocities cancel out, resulting in the same range for the projectile regardless of the angle of launch. This is because the horizontal component of the velocity, which determines the range, is the same for both angles.
The half maximum range of a projectile is launched at an angle of 15 degree
The range of change of velocity is determined by the final velocity minus the initial velocity. It represents the magnitude and direction of the change in velocity of an object.
No, the initial velocity of a projectile is not inversely proportional to the range. The range of a projectile is determined by a combination of its initial velocity, launch angle, and acceleration due to gravity. A higher initial velocity can lead to a longer range, but it's not a strict inverse relationship.
the velocity of deccan trap basalt is 4.8-5km/sec,but basement granite has a velocity range of 6.0-6.2km/sec.
The initial velocity of the projectile is the only factor that affects its range. Increasing the initial velocity will result in a longer range, while decreasing it will result in a shorter range.
Without considering any effects of air resistance and wind, the angle of projection that delivers the greatest horizontal range is 45 degrees above the horizon. Anything different ... either more or less than 45 degrees ... reduces the range.