Fluid density, relative velocity, and object shape affect air resistance.
air resistance affects
it affects it by air pressure velocity
Air resistance affects us in everyday life by making it harder to move through the air, like when cycling or running. It also affects the fuel efficiency of vehicles as they have to work harder against air resistance to maintain speed. Additionally, air resistance can impact the design of buildings and structures to ensure they can withstand wind loads.
Mass certainly affects the gravitational attraction between objects; air resistance doesn't.
Air resistance slows down the javelin by exerting a force against its forward motion. The shape of the javelin can help minimize air resistance and improve the distance it travels when thrown. The javelin's speed and angle of release also play a role in how much air resistance affects its flight.
Air resistance acts in the direction opposite to the motion of a falling object, slowing it down. The faster an object moves through the air, the greater the air resistance it experiences. This force ultimately affects the speed and trajectory of the falling object.
Yes, air resistance affects a ball being thrown by creating a force that opposes its motion through the air. This force acts to slow down the ball and alter its trajectory, especially at higher speeds or in the presence of turbulent air flow.
Gravity, which keeps us grounded and affects our balance and movement; Friction, which provides resistance when walking or driving; and Air resistance, which affects our speed and energy expenditure when moving through the air.
The shape of an object affects the rate at which it falls due to differences in air resistance. Objects with larger surface areas experience more air resistance and fall more slowly than objects with smaller surface areas. Objects with streamlined shapes experience less air resistance and fall more quickly.
gravity holds you down wings + forward motion = lift thrust = forward motion air resistance = resistance to forward motion thin air at altitude is easier and cheaper to get through
To determine the impact of air resistance on an object's motion, one can analyze the object's speed, size, shape, and the density of the air it is moving through. By considering these factors, one can calculate the force of air resistance acting on the object and how it affects its acceleration and overall motion.
Air pressure affects how far a baseball can travel when hit. Higher air pressure makes the air denser, creating more resistance against the ball, causing it to not travel as far. Lower air pressure, on the other hand, allows the ball to travel farther due to reduced air resistance.