size , shape , and speed of the object
Reducing the speed of the object or increasing its surface area can help reduce the effect of air resistance. Streamlined shapes and smooth surfaces can also minimize air resistance.
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.
The two factors affecting air resistance are the speed of the object moving through the air and the cross-sectional area of the object. Faster speeds and larger surface areas create greater air resistance, slowing down the object's motion.
-- In the absence of air resistance, the object's diameter has no effect at all on the projectile motion. -- In the presence of air resistance, one has to know everything about the object AND the air in order to have a prayer of calculating the effect.
Yes, air resistance (also known as drag) does have an effect on a projectile's motion. It opposes the projectile's motion, slowing it down and causing it to lose kinetic energy. This can alter the trajectory and distance traveled by the projectile.
Reducing the speed of the object or increasing its surface area can help reduce the effect of air resistance. Streamlined shapes and smooth surfaces can also minimize air resistance.
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.
Its elemental makeup. Its' diameter and its' length.
it gets faster.
There are two factors that influence air resistance with temperature. Air density decreases with temperature so that the force needed to push the air out of the way is decreased, thereby decreasing resistance. Conversely, air viscosity increases with temperature (unlike oil for example where viscosity decreases with temperature) so that the drag increases. Under normal conditions, the density change of air has the greatest effect and air resistance decreases at higher temperatures.
The two factors affecting air resistance are the speed of the object moving through the air and the cross-sectional area of the object. Faster speeds and larger surface areas create greater air resistance, slowing down the object's motion.
-- In the absence of air resistance, the object's diameter has no effect at all on the projectile motion. -- In the presence of air resistance, one has to know everything about the object AND the air in order to have a prayer of calculating the effect.
the factors that effect are ,temp,volts,amperes,lentzs law governing electic,which is very common to volkmans law,,,,which is called back flux resistance +resistance of the conductor
Yes, air resistance (also known as drag) does have an effect on a projectile's motion. It opposes the projectile's motion, slowing it down and causing it to lose kinetic energy. This can alter the trajectory and distance traveled by the projectile.
In the game Mass Effect, there is no specific reference to air resistance affecting the movement of objects or characters. The focus is more on combat, exploration, and story-driven gameplay rather than simulating realistic physics effects like air resistance.
The factors that affect the amount of air resistance acting on an object are the speed of the object, the surface area exposed to the air, and the shape of the object. A faster object experiences more air resistance than a slower one, a larger surface area increases air resistance, and a streamlined shape reduces air resistance.
This is false. The answer is that mass and distance affect the gravitational attraction between objects. Air resistance has no effect on this.