Without air resistance, the path of a projectile over a small part of the
Earth's surface, under the influence of gravity alone, is always a piece
of a parabola ... as long as it's not launched straight up or straight down.
The path of a projectile can be curved due to the influence of external forces like air resistance, gravity, and other factors. These forces can affect the trajectory of the object, causing it to deviate from a straight line path.
Yes, projectile motion involves both a horizontal component and a vertical component. The horizontal component remains constant due to the absence of horizontal forces, while the vertical component is affected by gravity, causing the projectile to follow a curved path.
A projectile following a parabolic path on a circle can be understood as the motion of an object launched at an angle along the circumference of the circle. As the object moves, gravity causes it to follow a parabolic trajectory while the curvature of the circle influences its path. The resulting motion combines the circular motion of the circle with the parabolic motion of the projectile.
The only force acting on a projectile is gravity. It causes the projectile to accelerate downward and follow a curved path. The horizontal motion of the projectile is not affected by any other forces.
The hypothesis of projectile motion typically involves predicting the path of a projectile based on initial conditions such as angle of launch, initial velocity, and gravity. It could be stated as: "The projectile will follow a curved path known as a parabola, determined by the initial velocity and launch angle, and will be influenced by gravity throughout its flight."
The path of a projectile can be curved due to the influence of external forces like air resistance, gravity, and other factors. These forces can affect the trajectory of the object, causing it to deviate from a straight line path.
Yes, projectile motion involves both a horizontal component and a vertical component. The horizontal component remains constant due to the absence of horizontal forces, while the vertical component is affected by gravity, causing the projectile to follow a curved path.
The path with the lowest resistance.
The path of a projectile is it's trajectory.
The path of a projectile in earth gravity is that of a parabola.
A projectile following a parabolic path on a circle can be understood as the motion of an object launched at an angle along the circumference of the circle. As the object moves, gravity causes it to follow a parabolic trajectory while the curvature of the circle influences its path. The resulting motion combines the circular motion of the circle with the parabolic motion of the projectile.
The only force acting on a projectile is gravity. It causes the projectile to accelerate downward and follow a curved path. The horizontal motion of the projectile is not affected by any other forces.
Light and electricity follow the path of least resistance.
"least resistance"
The path of least resistance.
The hypothesis of projectile motion typically involves predicting the path of a projectile based on initial conditions such as angle of launch, initial velocity, and gravity. It could be stated as: "The projectile will follow a curved path known as a parabola, determined by the initial velocity and launch angle, and will be influenced by gravity throughout its flight."
Electricity follows the path of least resistance. This could be convoluted.