Air resistance is a force that opposes the motion of an object through the air. In the context of gravity, air resistance can affect the speed and trajectory of a falling object. In the absence of air resistance, all objects would fall at the same rate regardless of their mass, as described by the principle of gravitational acceleration.
Air resistance acts in the opposite direction to gravity, slowing down the motion of objects falling through the air. This resistance increases with the speed of the object, eventually balancing out the force of gravity and causing the object to reach a terminal velocity.
No, air resistance is not a form of gravity. Air resistance is a type of friction that acts on objects moving through the air, slowing them down. Gravity, on the other hand, is the force of attraction between objects with mass.
Gravity is typically stronger than air resistance. Gravity is a fundamental force that pulls objects towards each other, whereas air resistance is a type of friction that opposes the motion of an object moving through the air. This means that in most cases, gravity will have a greater impact on the motion of an object compared to air resistance.
When air resistance and gravity are equal, it is known as terminal velocity. At terminal velocity, an object falling through the air no longer accelerates but rather falls at a constant speed due to the balance between air resistance and gravity.
Projectiles are subject to the force of gravity, which causes them to accelerate downward, and the force of air resistance, which opposes their motion through the air.
None whatsoever.
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Gravity and air resistance will both play a part. Air resistance is likely to reduce speed and gravity will cause the bullet to be pulled towards the ground.
Air resistance acts in the opposite direction to gravity, slowing down the motion of objects falling through the air. This resistance increases with the speed of the object, eventually balancing out the force of gravity and causing the object to reach a terminal velocity.
No, air resistance is not a form of gravity. Air resistance is a type of friction that acts on objects moving through the air, slowing them down. Gravity, on the other hand, is the force of attraction between objects with mass.
If gravity is greater than air resistance, the parachutist will accelerate downward and continue to fall towards the ground. The air resistance will slow down the parachutist's descent, but since gravity is stronger, the overall motion will be downward.
The potential energy of the elasticity of the catapult material, air resistance, gravity.
Gravity is typically stronger than air resistance. Gravity is a fundamental force that pulls objects towards each other, whereas air resistance is a type of friction that opposes the motion of an object moving through the air. This means that in most cases, gravity will have a greater impact on the motion of an object compared to air resistance.
When air resistance and gravity are equal, it is known as terminal velocity. At terminal velocity, an object falling through the air no longer accelerates but rather falls at a constant speed due to the balance between air resistance and gravity.
It doesn't. The force of gravity depends on the masses involved, and their distance. However, air resistance can introduce other forces, that counteract the force of gravity.
Projectiles are subject to the force of gravity, which causes them to accelerate downward, and the force of air resistance, which opposes their motion through the air.
When air resistance is greater than the force of gravity acting on an object, it will slow down the object's descent. This is because the air resistance force counteracts the force of gravity, reducing the acceleration of the object as it falls.