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The cannonball and Earth both fall towards each other due to gravity. However, the Earth's much larger mass results in the cannonball appearing to fall towards the Earth because the Earth's gravitational force is much stronger. This is in accordance with Newton's law of universal gravitation.
No, assuming gravity is the only force acting on the cannonball, it will eventually hit the ground.
Yes, momentum is always conserved in a system unless acted upon by an external force. When a cannonball is fired, the momentum of the cannonball system as a whole remains constant because the momentum of the cannonball is equal and opposite to the momentum of the recoil of the cannon.
Both objects are acted on by the force of the expanding gases in the bore. The forces forward and backward have to be equal. The motion they produce ... the forward motion of the shot and the rearward motion of the cannon ... are in inverse proportion to their masses, so that the linear momentum after the shot is the same as the linear momentum before the shot, namely zero.
A cannonball sinks because it is denser than water. The weight of the cannonball pushes it downwards, overcoming the buoyant force of the water. This causes the cannonball to displace water equal to its weight, resulting in it sinking to the bottom.
For every reaction there is an equal and opposite reaction. -500N
The cannonball and Earth both fall towards each other due to gravity. However, the Earth's much larger mass results in the cannonball appearing to fall towards the Earth because the Earth's gravitational force is much stronger. This is in accordance with Newton's law of universal gravitation.
No, assuming gravity is the only force acting on the cannonball, it will eventually hit the ground.
A cannonball fired parallel to the ground is in an unbalanced state. While the force of gravity acts downwards on the cannonball, the initial propulsion provides a horizontal force, creating a net force in the horizontal direction. This results in a trajectory that is influenced by both the initial velocity and gravitational pull, leading to an unbalanced force situation. As a result, the cannonball will continue to move forward while also descending due to gravity.
Yes, momentum is always conserved in a system unless acted upon by an external force. When a cannonball is fired, the momentum of the cannonball system as a whole remains constant because the momentum of the cannonball is equal and opposite to the momentum of the recoil of the cannon.
Both objects are acted on by the force of the expanding gases in the bore. The forces forward and backward have to be equal. The motion they produce ... the forward motion of the shot and the rearward motion of the cannon ... are in inverse proportion to their masses, so that the linear momentum after the shot is the same as the linear momentum before the shot, namely zero.
A cannonball sinks because it is denser than water. The weight of the cannonball pushes it downwards, overcoming the buoyant force of the water. This causes the cannonball to displace water equal to its weight, resulting in it sinking to the bottom.
According to Newton's third law of motion, for every action, there is an equal and opposite reaction. Therefore, the force that will move the cannon backward will also be 500N.
The acceleration of the human cannonball can be calculated using Newton's second law, which states that Force = mass * acceleration. In this case, the force is 2400N and the mass is 80kg, so the acceleration is 30 m/s^2.
Newton's Laws of Motion explain the behavior of a cannon and cannonball during firing. According to Newton's Third Law, for every action, there is an equal and opposite reaction; when the cannon fires, the explosive force pushes the cannonball forward while the cannon itself recoils backward. Newton's Second Law states that the acceleration of the cannonball depends on the force applied and its mass, illustrating how the cannon's explosive force propels the ball. Overall, these laws describe the interactions and motions involved in firing a cannon.
none. because of Newton's first law. that an object in motion is going to stay in motion (cannonball) until and outside force is acted upon it. So in theory it could be a meteor or black hole that changes its course of direction, but in this case, the cannonball would travel 'infinitely.
no but you get upchuck to replace him