When catching a ball, two forces are at play: a force of gravity pulling the ball downward and a force exerted by the hand or glove pushing the ball upward to stop its motion. The interaction between these two forces determines the speed and direction at which the ball is caught.
When holding a ball, the two forces being exerted on the ball are gravity pulling the ball downward toward the Earth, and the force you apply by holding the ball to prevent it from falling.
When two forces act on a rubber ball, they can change its shape and size. The forces can compress or stretch the ball, affecting its elasticity and rebound characteristics. Additionally, the forces can also cause the ball to accelerate or decelerate depending on their direction and magnitude.
The two balanced forces acting on the ball are the force of gravity pulling the ball downward and the normal force exerted by your hand upward to support the ball's weight.
The two forces acting on a rolling ball are the force of gravity pulling it downward and the normal force exerted by the surface it is rolling on.
When you throw a ball, two main forces are acting on it: the force of your throw propels the ball forward, while gravity pulls it downward towards the ground. The interaction of these two forces determines the ball's trajectory and how far it will travel.
When holding a ball, the two forces being exerted on the ball are gravity pulling the ball downward toward the Earth, and the force you apply by holding the ball to prevent it from falling.
When two forces act on a rubber ball, they can change its shape and size. The forces can compress or stretch the ball, affecting its elasticity and rebound characteristics. Additionally, the forces can also cause the ball to accelerate or decelerate depending on their direction and magnitude.
The two balanced forces acting on the ball are the force of gravity pulling the ball downward and the normal force exerted by your hand upward to support the ball's weight.
The two forces acting on a rolling ball are the force of gravity pulling it downward and the normal force exerted by the surface it is rolling on.
When you throw a ball, two main forces are acting on it: the force of your throw propels the ball forward, while gravity pulls it downward towards the ground. The interaction of these two forces determines the ball's trajectory and how far it will travel.
When i hit a ball i.e. we give a force in the ball,the ball give an equal & opposite force in our hand..as the two forces acting in the two different bodies so the equal and opposite forces cannot balance with each other..
i think its compression and ... sorry i don't know the other one
When you throw a ball, two main forces act on it: the force of the throw propelling it forward, and the force of gravity pulling it downward. The throw provides the initial thrust while gravity causes the ball to follow a curved path back to the ground.
When you throw a ball, two forces are typically acting on it: the force exerted by your hand pushing the ball forward, and the force of gravity pulling the ball down towards the ground.
When you catch a ball, the action force is the force applied by your hand on the ball to stop its motion. The reaction force is the force applied by the ball on your hand in the opposite direction, creating an equilibrium that allows you to catch the ball securely.
A team athlete who is skilled at stealing or catching the ball. Don't get it mixed up with Ball Hog, though. Two completely different things.
When a ball bounces, there are primarily two forces at play: gravity, which pulls the ball downwards, and the normal force exerted by the surface the ball bounces off of, which pushes the ball back up. These forces determine the height of the bounce and the time it takes for the ball to return to the surface. Frictional forces may also play a role in influencing the bounce of the ball.