There are several, the strongest being gravity, followed by air resistance (stops the ball from going faster than about 120mph), there's also the force from light sources (light has momentum), friction at the surface of the ball between the air and the ball (not just resistance but generation of heat), and the changes in electromagnetic fields generated by the atoms of the ball itself.
The forces acting on the egg are gravity pulling it downwards and the normal force pushing it upwards. The normal force is exerted by the branch of the tree the egg is falling from, preventing it from falling through the branch.
As an egg drops, the main forces acting upon it are gravity pulling it down and air resistance pushing against it. Initially, gravity is the dominant force causing the egg to accelerate towards the ground. Air resistance increases as the egg falls faster, eventually balancing out the force of gravity and causing the egg to reach a terminal velocity where it falls at a constant speed.
When dropping an egg, the main forces acting upon it are gravity pulling it downward and air resistance pushing against it as it falls through the air. If the egg hits a surface upon landing, an impact force is also exerted on the egg.
When a book is dropped, the main forces acting on it are gravity pulling it downward and air resistance pushing against it as it falls through the air.
While the egg is falling, the main forces acting on it are gravity pulling it downward and air resistance pushing against it in the opposite direction. For the container, the forces are similar, with gravity pulling it downward and air resistance pushing against it. Friction with the surrounding air will also play a role in affecting the motion of both the egg and the container.
The forces acting on the egg are gravity pulling it downwards and the normal force pushing it upwards. The normal force is exerted by the branch of the tree the egg is falling from, preventing it from falling through the branch.
As an egg drops, the main forces acting upon it are gravity pulling it down and air resistance pushing against it. Initially, gravity is the dominant force causing the egg to accelerate towards the ground. Air resistance increases as the egg falls faster, eventually balancing out the force of gravity and causing the egg to reach a terminal velocity where it falls at a constant speed.
When dropping an egg, the main forces acting upon it are gravity pulling it downward and air resistance pushing against it as it falls through the air. If the egg hits a surface upon landing, an impact force is also exerted on the egg.
When a book is dropped, the main forces acting on it are gravity pulling it downward and air resistance pushing against it as it falls through the air.
Free Fall
Niagara Falls doesn't really have any forces acting on it, but the gravity is a force. So gravity is whats causing the water to rush down. :)
While the egg is falling, the main forces acting on it are gravity pulling it downward and air resistance pushing against it in the opposite direction. For the container, the forces are similar, with gravity pulling it downward and air resistance pushing against it. Friction with the surrounding air will also play a role in affecting the motion of both the egg and the container.
On a parachute falling through the air, the main forces acting are gravity pulling it downward and air resistance pushing against it. Gravity accelerates the parachute towards the ground, while air resistance, or drag, slows down its descent. The balance between these forces determines the speed at which the parachute falls.
When a flat sheet of paper falls to the floor, the main forces acting on it are gravity pulling it downward and air resistance pushing against it. Gravity is the force that pulls objects towards the Earth, while air resistance is the force that opposes the motion of the falling paper by pushing against it. These two forces work together to determine the speed and direction of the paper as it falls.
Neither would drop faster. The egg and the egg yolk both have the same forces of gravity acting on them. so this means that they both will drop at the same time.
The forces acting on a falling leaf are gravity pulling it downward and air resistance pushing against it as it falls. These forces determine the leaf's speed and trajectory as it descends towards the ground.
When a man falls from the top of a building, the main forces acting on him are gravity, which pulls him downward towards the ground, and air resistance, which opposes his motion by pushing upward. Additionally, there may be friction with the building or other objects in the path of his fall that can affect his descent.