The air resistance varies due to shape.
In a vacuum (space) it would be largely because one started accelerating first. It would also be (2nd order effect) because there is no perfect vacuum and one has more resistance than the other.
In the absence of air resistance, all objects fall at the same rate regardless of their mass. This is due to the principle of gravity, which causes objects to accelerate towards the Earth's surface at the same rate. In real-life scenarios with air resistance, lighter objects may experience more air friction and fall slower than heavier objects.
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Yes, in free fall all objects experience the same acceleration due to gravity, regardless of their mass. This acceleration is approximately 9.8 m/s^2 on Earth.
yes, objects fall at a rate of 9.8m/swith acceleration. For every second in free fall you must add 9.8m/s to get the acceleration of an object.
Friction can be reduced in falling objects by minimizing the surface area in contact with the surrounding air. This can be achieved by streamlining the shape of the object. Additionally, using materials that are smoother or have low friction coefficients can help reduce the resistance encountered during the fall.
In free fall, the force of gravity alone causes an object to accelerate in the downward direction.
Gravity and free fall are similar because they are both a force that pulls objects downward. <><><><><> Gravity is the force that pulls you down. Free fall is when you have no opposing force keeping you up.
They Free Fall without losing it's/their momentum.
objects c.g side
Yes, exactly. Free fall results in constant acceleration.
Yes, the acceleration due to gravity for all objects in free fall near the Earth's surface is approximately 9.81 m/s^2. This value is constant regardless of the mass or composition of the object, as long as air resistance is negligible.
Heat travels faster in some objects by conduction because they have free or mobile electrons for the conduction of heat energy.Such is the case with metals.