Gravity
Gravity is the force that gives a thrown ball its vertical movement. As the ball is thrown upwards, gravity acts on it, pulling it back down towards the ground. The vertical movement of the ball is a result of the interaction between the force of the throw and the force of gravity.
Yes, a ball thrown upwards loses momentum as it moves against gravity. Gravity acts as a force that opposes the motion of the ball, slowing it down until it eventually reaches its highest point and then starts to descend back down.
The opposite of buoyant force is gravitational force. Gravitational force acts downwards, pulling objects toward the center of the Earth, while buoyant force acts upwards, pushing objects in a fluid upwards.
In a submerged object in water, the buoyant force acts vertically upwards opposite to gravity. This is because the pressure exerted by water increases with depth, leading to a net upward force on the object. There is no horizontal buoyant force because water pressure is isotropic, meaning it acts equally from all directions in a horizontal plane.
The force that acts in the opposite direction of lift is weight, which is the force exerted by gravity pulling the object downward. It acts vertically downward from the center of mass of the object.
Gravity is the force that gives a thrown ball its vertical movement. As the ball is thrown upwards, gravity acts on it, pulling it back down towards the ground. The vertical movement of the ball is a result of the interaction between the force of the throw and the force of gravity.
Yes, a ball thrown upwards loses momentum as it moves against gravity. Gravity acts as a force that opposes the motion of the ball, slowing it down until it eventually reaches its highest point and then starts to descend back down.
The opposite of buoyant force is gravitational force. Gravitational force acts downwards, pulling objects toward the center of the Earth, while buoyant force acts upwards, pushing objects in a fluid upwards.
In a submerged object in water, the buoyant force acts vertically upwards opposite to gravity. This is because the pressure exerted by water increases with depth, leading to a net upward force on the object. There is no horizontal buoyant force because water pressure is isotropic, meaning it acts equally from all directions in a horizontal plane.
The force that acts in the opposite direction of lift is weight, which is the force exerted by gravity pulling the object downward. It acts vertically downward from the center of mass of the object.
The forces acting on a hanging pen are gravitational force pulling it downward and tension force in the string supporting it. The gravitational force acts vertically downward on the pen due to Earth's gravity, while the tension force in the string acts vertically upward to counterbalance the weight of the pen.
When an object is thrown upwards, two main forces act on it: the force of gravity pulling it downwards and the force of air resistance slowing it down as it moves through the air. Additional forces like thrust and lift may also be involved depending on the specific situation.
From what I know, Force of Gravity always acts in the vertically downward direction.
The force that acts against gravity is called the normal force. It is exerted by a surface supporting an object, pushing upwards to prevent the object from falling due to gravity.
Lift is the force that acts upwards, perpendicular to the chord of the wing. Thrust is the force acting perpendicular to the propeller disc.
In the act of "throwing", the thrower imparts an upward velocity to the object, by temporarily applying an upward force to it that's greater than the downward force of gravity. During that brief period, the sum of the forces on the object is directed upward, so it accelerates in that direction. After the throwing ends, however, the only force on the object is the force of gravity, directed downward, so its acceleration is downward. That means that the upward velocity becomes smaller and smaller, until it's zero at the peak of the arc, and the velocity then becomes downward as the object begins to fall from its peak..
When an object is thrown up, the force of gravity acts on it in the opposite direction to its motion. This force causes the object to slow down and eventually come to a stop before falling back to the ground.