it depends on the gravitational force of attraction of earth and air resistance.
if we are neglecting air resistance, the max.horizontal distance is according to this formulae,
V0/2 * sin (2theta)
where V0 is the initial velocity
theta is the angle with x axis and the projection.
Lateral displacement, or the horizontal distance a projectile travels from its initial path, does not affect the trajectory of a projectile in terms of its vertical motion. The vertical motion of a projectile is determined by gravity and initial velocity, while the horizontal motion is affected by factors such as wind resistance and launch angle. Therefore, lateral displacement does not change the overall trajectory of a projectile.
The vertical displacement of a projectile has no direct effect on its theoretical range. The range of a projectile is determined by its initial velocity, launch angle, and acceleration due to gravity. Vertical displacement primarily affects the height reached by the projectile during its flight, while range refers to the horizontal distance traveled.
The horizontal motions of a projectile are independent of its vertical motion. This means that the horizontal velocity remains constant and unaffected by gravity. Additionally, the horizontal distance traveled by a projectile is determined by the initial horizontal velocity and the time of flight.
At the highest point of its trajectory, the direction of an oblique projectile will be horizontal. This means that the projectile will momentarily have zero vertical velocity and only horizontal velocity.
The horizontal component of a projectile follows uniform motion, meaning it moves at a constant velocity in the absence of air resistance or other forces. This motion is independent of the vertical motion of the projectile.
Lateral displacement, or the horizontal distance a projectile travels from its initial path, does not affect the trajectory of a projectile in terms of its vertical motion. The vertical motion of a projectile is determined by gravity and initial velocity, while the horizontal motion is affected by factors such as wind resistance and launch angle. Therefore, lateral displacement does not change the overall trajectory of a projectile.
The vertical displacement of a projectile has no direct effect on its theoretical range. The range of a projectile is determined by its initial velocity, launch angle, and acceleration due to gravity. Vertical displacement primarily affects the height reached by the projectile during its flight, while range refers to the horizontal distance traveled.
A projectile thrown at a 45-degree angle achieves the maximum horizontal distance due to the optimal balance between vertical and horizontal velocity components. At this angle, the initial velocity is divided equally between the upward and forward directions, maximizing the time the projectile spends in the air while also ensuring significant horizontal displacement. Additionally, this angle minimizes the effects of gravitational pull on the projectile's trajectory, allowing it to cover the greatest horizontal distance before landing.
The horizontal motions of a projectile are independent of its vertical motion. This means that the horizontal velocity remains constant and unaffected by gravity. Additionally, the horizontal distance traveled by a projectile is determined by the initial horizontal velocity and the time of flight.
At the highest point of its trajectory, the direction of an oblique projectile will be horizontal. This means that the projectile will momentarily have zero vertical velocity and only horizontal velocity.
The horizontal component of a projectile follows uniform motion, meaning it moves at a constant velocity in the absence of air resistance or other forces. This motion is independent of the vertical motion of the projectile.
The horizontal speed of the projectile remains constant as there is no force acting in the horizontal direction to change it. Therefore, the horizontal speed of the projectile after 3 seconds will remain at 4 m/s.
A projectile has maximum horizontal range when it is launched at an angle of 45 degrees to the horizontal. This angle allows for the ideal balance between the horizontal and vertical components of the projectile's velocity, ensuring that it travels the farthest distance before hitting the ground.
The horizontal distance a projectile travels is called range.
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).
A projectile motion graph illustrates the path of an object in motion, showing how its position changes over time. It typically shows the object's vertical and horizontal displacement, velocity, and acceleration as it moves through the air.
The formula for the horizontal distance traveled by a horizontally launched projectile is: range = initial velocity * time. This formula assumes that there is no air resistance and that the projectile is launched horizontally.