No. Heavy mass ball will fall early than light weigh ball. Because gravity works early with heavy mass body.
No, there is an air resistance which resists its motion. it depends on the shape and size of the object.
Yes. Also, objects of different mass, whether or not they have the same shape. With normal Earth gravity, i.e., near the Earth's surface, they will accelerate at about 9.8 meters/second2. This assumes that air resistance can be neglected; once air resistance becomes significant, the acceleration will be less.
Yes. Also, objects of different mass, whether or not they have the same shape. With normal Earth gravity, i.e., near the Earth's surface, they will accelerate at about 9.8 meters/second2. This assumes that air resistance can be neglected; once air resistance becomes significant, the acceleration will be less.
If they Are the same shape and same size they will hit the ground at the same time. Weight has nothing to do with it, only wind resistance does. Gravity's force is constant. No matter the weight it is 9.8 meters per second.
It's all about the air resistance that the object receives as it falls in an atmosphere. The air has to move around the object as it falls, if it's allowed to move smoothly aroundyam object by the objects shape then the force of the air resistance is lower. This allows the object to fall faster.
Yes. In the absence of air, it doesn't even matter how their shapes and sizes compare.
the amount of air resistance on an object depends on the size, shape, and speed of the object. Air resistance is the force that opposes the motion of objects through air.
similar objects
It has been found that such a shape reduces air resistance.
Yes, different types of materials can affect air resistance differently. Smooth surfaces such as glass or metal tend to have lower air resistance due to their ability to create laminar flow. Rough surfaces like fabrics or textured objects tend to create more turbulence, increasing air resistance. Additionally, the shape and surface area of an object also influence air resistance.
Air resistance is reduced by reducing the surface area of an object facing the air flow, making it more streamlined. Additionally, objects with smooth surfaces experience less air resistance compared to objects with rough surfaces. Increasing the velocity of the object can also help in reducing air resistance.
In a vacuum they all fall at the same speed, but in air, air resistance slows them all. Some more than oyhers. Density has an effect, but so does shape.