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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.
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What is the horizontal distance traveled by a projectile?
The horizontal distance traveled by a projectile is determined by the initial velocity of the projectile, the angle at which it was launched, and the time of flight. It can be calculated using the equation: horizontal distance = (initial velocity * time * cosine of launch angle).
How does the pull back angle affect the distance for catapults?
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.
At what angle from a horizontal should a weapon be fired to achieve minimum distance traveled by the projectile?
The weapon should be fired at a 45-degree angle from the horizontal to achieve the minimum distance traveled by the projectile. This angle maximizes the range (horizontal distance) of the projectile by balancing the vertical and horizontal components of its velocity. At any other angle, the total distance traveled would be greater.
What is half projectile?
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.
A projectile upward at an angle of 75degree from the horizontal and strikes the ground a certain distance down range.For what other angle of launch ath the same speed wouldthis projectile land just a?
For the projectile to land at the same distance with the same initial speed, it must be launched at an angle of 15 degrees from the horizontal. This is because the range of a projectile is maximized when launched at a 45-degree angle. So, launching at 15 degrees in the opposite direction of 75 degrees should bring the projectile to the same landing point.
What is the horizontal distance traveled by a projectile?
The horizontal distance traveled by a projectile is determined by the initial velocity of the projectile, the angle at which it was launched, and the time of flight. It can be calculated using the equation: horizontal distance = (initial velocity * time * cosine of launch angle).
How does the pull back angle affect the distance for catapults?
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.
What angle a projectile thrown to achieve maximum horizontal distance traveled?
A trajectory of 45 degrees elevation gives the longest horizontal travel- (not taking air drag into consideration nor any aerodynamic properties of a projectile.
Does a projectile's distance covered decrease when fired at an angle above forty-five degrees?
The optimal angle to fire a projectile if the objective is distance is 45 degrees. It follows that the distance traveled decreases whether the angle is increased or decreased from 45.
At what angle from a horizontal should a weapon be fired to achieve minimum distance traveled by the projectile?
The weapon should be fired at a 45-degree angle from the horizontal to achieve the minimum distance traveled by the projectile. This angle maximizes the range (horizontal distance) of the projectile by balancing the vertical and horizontal components of its velocity. At any other angle, the total distance traveled would be greater.
What is the maximum angle needed to have a longest range in projectile motion?
45 degrees is the furthest one
What is half projectile?
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.
What angle a projectile thrown to achieve maximum vertically distance traveled?
90
What angle for firing projectiles gives longest time?
45 degrees to the horizontal will give the maximum flight time for a projectile. If a projectile was fired at 90 degrees to the horizontal, (straight upwards) the projectile will go straight upwards (ignoring the shape, form and aerodynamic properties of the projectile). Likewise if you were to fire a projectile at 0 degrees to the horizontal, the projectile would follow said course, IF gravity was not in effect; a projectile needs some form of vertical velocity to overcome gravity. Hence why 45 degrees will give you the longest distance and consequently flight time.
A projectile upward at an angle of 75degree from the horizontal and strikes the ground a certain distance down range.For what other angle of launch ath the same speed wouldthis projectile land just a?
For the projectile to land at the same distance with the same initial speed, it must be launched at an angle of 15 degrees from the horizontal. This is because the range of a projectile is maximized when launched at a 45-degree angle. So, launching at 15 degrees in the opposite direction of 75 degrees should bring the projectile to the same landing point.
What are the factors which determine the distance that a projectile will travel?
Factors that determine the distance a projectile will travel include the initial velocity of the projectile, the angle of projection, air resistance, gravity, and the mass and shape of the projectile. Higher initial velocity, lower air resistance, a shallow angle of projection, and a projectile with less mass and streamlined shape tend to result in longer distances.
What other angle of launch at the same speed would a projectile land just as far away?
For a projectile launched at a certain speed, an angle of launch that is complementary to the original angle (i.e., the sum of the two angles is 90 degrees) would result in the projectile landing at the same distance. This is due to the symmetrical nature of the projectile's trajectory in a vacuum without air resistance.
