Air resistance is the force that opposes the motion of an object through the air. It depends on the speed of the object and its surface area exposed to the air.
No, air resistance depends on the speed of the object, its frontal area exposed to the air, and the air density. Objects with larger surface areas experience more air resistance.
The amount of air resistance an object has depends on it's shape and it's frontal cross-section.
Air resistance depends on the velocity of the moving object.
The air resistance experienced by a skydiver is significant as it opposes the downward motion, slowing the diver's fall. The magnitude of air resistance depends on factors such as the diver's speed, body position, and surface area exposed to the air. Skydivers often use specialized equipment like parachutes to control their descent by manipulating air resistance.
In general the resistance increases by the 4th power of the speed.
The amount of air resistance acting on an object depends on its speed (faster speeds result in greater air resistance) and its surface area (larger surface area increases air resistance).
Air resistance is the force that opposes the motion of an object through the air. It acts in the opposite direction to the object's motion. The magnitude of air resistance depends on the speed of the object, the surface area exposed to the air, and the shape of the object.
Air resistance, also known as drag, is a form of friction that acts on objects moving through the air. The amount of air resistance experienced by an object depends on its shape, size, speed, and surface texture. Therefore, air resistance can vary in intensity depending on these factors.
The size of air resistance force on an object depends on its size, shape, speed, and the air density. Larger objects experience greater air resistance due to their larger surface area coming into contact with the air. The shape of an object can also impact air resistance; streamlined shapes experience less air resistance than irregular shapes. For example, a skydiver falling with arms and legs outstretched will experience greater air resistance compared to when they assume a streamlined position.
Air resistance is affected by the speed of the object moving through the air, the cross-sectional area of the object, the density of the air, and the shape of the object. Objects with larger surface areas and higher speeds experience greater air resistance.
It depends on their air resistance, in a vacuum NO.