Air enters the respiratory system through the nose or mouth, then passes through the trachea (windpipe) into the bronchial tubes, which lead to the lungs. In the lungs, the air travels through smaller and smaller tubes called bronchioles until it reaches the alveoli, where oxygen is transferred to the blood and carbon dioxide is removed. Finally, the air is exhaled back through the same pathway.
The path of a projectile is called its trajectory. It is the curved path that an object follows when it is thrown or shot into the air.
The center of mass of the object follows a smooth path when it spins through the air or across a flat smooth surface.
If there's no influence from air resistance, then the path of a "projectile" is a parabola. That's what you get when one component of velocity is constant and its other (orthogonal) component is accelerated.
A trajectory path refers to the predicted or actual path that an object, such as a projectile or space vehicle, follows as it moves through space or air. It is determined by factors such as initial velocity, angle of launch, air resistance, and gravitational forces.
The path that an object follows in projectile motion is determined by both its initial velocity and the force of gravity acting on it. The object will follow a curved path because it has horizontal and vertical components of motion. As long as there is no air resistance, the object will follow a parabolic trajectory.
The path of a projectile is called its trajectory. It is the curved path that an object follows when it is thrown or shot into the air.
The center of mass of the object follows a smooth path when it spins through the air or across a flat smooth surface.
The path water follows is called the water cycle. Water evaporates from the Earth's surface, rises into the air, condenses to form clouds, and then falls back to the Earth as precipitation in the form of rain or snow.
If there's no influence from air resistance, then the path of a "projectile" is a parabola. That's what you get when one component of velocity is constant and its other (orthogonal) component is accelerated.
This is a ventilation system question. The return air path is the route (usually through ducting but could be through some other route such as a window or vent) that the air takes. Typically a building ventilation system would have both supply and extract systems. The return air path is this.
A trajectory path refers to the predicted or actual path that an object, such as a projectile or space vehicle, follows as it moves through space or air. It is determined by factors such as initial velocity, angle of launch, air resistance, and gravitational forces.
The path that an object follows in projectile motion is determined by both its initial velocity and the force of gravity acting on it. The object will follow a curved path because it has horizontal and vertical components of motion. As long as there is no air resistance, the object will follow a parabolic trajectory.
Projectile motion is the motion of an object thrown or projected into the air, moving under the influence of gravity and air resistance. It follows a curved path called a trajectory, consisting of a horizontal and vertical component. The vertical component is affected by gravity, causing the object to accelerate downward, while the horizontal component remains constant if air resistance is negligible.
A projectile follows a curved path called a parabola when it is launched horizontally or at an angle in the air. This path is a result of the combination of the projectile's initial velocity and the force of gravity acting on it. The shape of the path may vary depending on the launch angle and velocity of the projectile.
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 ball follows a parabolic path when thrown. In a vacuum (with no air or other forces acting upon it) the gravitational pull of the earth causes the ball to accelerate toward the earth (9.8m/sec
It goes out the same path that it came in.