The higher the concentration of a fluid, the longer the time it takes for an object to fall and therefore the smaller the terminal velocity.
Air resistance acts in the direction opposite to the motion of a falling object, slowing it down. The faster an object moves through the air, the greater the air resistance it experiences. This force ultimately affects the speed and trajectory of the falling object.
it affects motion by friction a friction pull it down or up
if the object is moving up and down there's a force acting on it if it's a free falling mg = ma , m is mass of object , g is 9.8 m/s2 there's a resistance of the medium which the body move in
In the absence of air resistance, mass does not affect the motion of a projectile. All objects fall at the same rate regardless of their mass in a vacuum. This principle is described by Galileo's law of falling bodies.
The force that pulls falling objects toward Earth is called gravity. It is a natural phenomenon that governs the motion of objects in the universe by attracting them towards each other.
Gravity is the force responsible for the motion of falling objects. All objects are attracted towards the center of the Earth by the force of gravity, causing them to accelerate towards the ground until they reach equilibrium or hit the ground.
Motion can impact objects in various ways, such as causing them to change position, gain speed, or experience force. Depending on the type of motion, objects can either maintain their speed, accelerate, decelerate, or change direction. Motion can also affect the energy, momentum, and stability of objects.
Two forces that affect nearly all motion are gravity, which pulls objects towards the Earth's center, and friction, which opposes the motion of objects moving against a surface.
Free falling objects are those that are only under the influence of gravity, with no other external forces acting on them. As a result, these objects accelerate towards the ground at a rate of 9.81 m/s² (on Earth) and do not experience air resistance. The motion of free falling objects can be described using the equations of motion.
Aristotle believed that natural motion, such as objects falling downward or fire rising upward, did not require any external force to occur. These types of motion were thought to be inherent to the nature of the objects themselves.
The two factors that affect orbital motion are the mass of the objects involved and the distance between them. Gravitational force is stronger with larger masses and decreases as distance between objects increases.
All objects, under these conditions, will accelerate at the same rate as they fall. (Note: Just the fact that you can call it a "falling" object is one of the effects of gravity.)