Air Resistance & Upward Velocity: Examining the Relationship

AI Thread Summary
Air resistance is influenced by the velocity of an object, increasing as the velocity rises. When a ball is thrown upwards, air resistance may initially increase but can decrease as the ball's upward velocity decreases. The relationship between air resistance and velocity is complex, as it can remain constant even when the ball decelerates due to gravity. The behavior of air resistance can be analyzed through mathematical formulas that account for factors like air density and the ball's velocity. Understanding this relationship is crucial for accurately predicting the ball's motion in the air.
MarcusK
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If air resistance increases with velocity, then if a ball is thrown upwards, does air resistance decrease as the upward velocity of the ball decreases or does it only increase and remains constant when the upward velocity of the ball decreases?
 
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MarcusK said:
If air resistance increases with velocity, then if a ball is thrown upwards, does air resistance decrease as the upward velocity of the ball decreases or does it only increase and remains constant when the upward velocity of the ball decreases?

What do you think? And why?
 
Not getting clear in your last line.
 
PeroK said:
What do you think? And why?
it's in the question: I think that "air resistance could decrease as the upward velocity of the ball decreases or it could increase and then remain constant even when the upward velocity of the ball decreases" Air resistance could decrease because it is strictly dependent on air resistance, i.e. air resistance opposes motion, therefore increasing when the object has a velocity or is accelerating. Or Air resistance could increase right after the ball leaves the hand of the person who threw the ball, and remain constant at that amount of opposing force even if the object begins to decelerate due to gravity.
 
Before the release, we might have been applying the force but just after the release we are not applying any force, the ball has inherited the motion of the hands, and it is having its own velocity.
Now why to take the gravity, to know about the behavior we should go special instead of going through complicated situations.
So, after initial velocity, the air resists it let for 'dt' time, then its velocity decreases, now in again another 'dt' time it encounters with less no. Of air particles which can be calculated by the product of its velocity at that instant and dt time.
This way we conclude to the formulae

M. (dv/dt) = - k. v = - k. (ds/dt)
Where k depends on quality of air., density of air.
 

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