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Projectile motion is a form of motion wherein an object moves along a curved path under the action of gravity only. The height of a projectile in motion is dependent on gravity.
45 degrees.
Assuming that seconds refers to the period, the frequency is the reciprocal (1 / period in seconds). The height of the wave is irrelevant in this case.
By statistical analysis. It is very difficult to calculate these using mechanics. Calculations of the trajectory of a projectile assume that the mass of the projectile is such that air resistance has a negligible effect. This is not the case when the projectile is confetti - even if it is packed densely to start with.
15.42 degrees
If a projectile takes 8 seconds to reach its maximum height, it will take another 8 seconds to return to its original elevation. Presuming it is lauched from flat ground and returns to the ground, its total time in flight would be 16 seconds. If it is launched from a hill, or at a hill, more information would be needed.
To determine how far a projectile travels horizontally, you need to know the initial velocity of the projectile, the angle at which it is launched, and the acceleration due to gravity. The horizontal range of the projectile can be calculated using the formula: range = (initial velocity squared * sin(2*launch angle)) / acceleration due to gravity.
As the range of a projectile increases, the angle at which it is launched must also increase to compensate for the increased horizontal distance traveled. This is because a higher launch angle allows the projectile to spend more time in the air, allowing gravity to act upon it for a longer duration and help it cover the greater distance.
You can't unless you know gravity and air pressure as well.
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.
initial velocity, angle of launch, height above ground When a projectile is launched you can calculate how far it travels horizontally if you know the height above ground it was launched from, initial velocity and the angle it was launched at. 1) Determine how long it will be in the air based on how far it has to fall (this is why you need the height above ground). 2) Use your initial velocity to determine the horizontal component of velocity 3) distance travelled horizontally = time in air (part 1) x horizontal velocity (part 2)
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.
You cannot. You need to know either the initial speed or angle of projection (A).
The maximum height of a projectile depends on its initial velocity and launch angle. In ideal conditions, the maximum height occurs when the launch angle is 45 degrees, reaching a height equal to half the maximum range of the projectile.
The max height depends only on the angle and speed at release. It doesn't depend on the projectile's weight.
The range of the projectile is the horizontal distance it travels. Since the projectile reaches 76m from the base and was launched from a height of 60m, the horizontal range is 76m - 60m = 16m. The range of the projectile is 16m.
h=u^2 sin^2x / 2g . where x is angle of release and h is the height of the projectile.