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What law says that heavier objects require more than lighter objects to move or accelerate them?

Newton's second law of motion states that the acceleration of an object is directly proportional to the force applied to it and inversely proportional to its mass. This means that heavier objects require more force to move or accelerate them compared to lighter objects.


Does a heavier object have more inertia than a lighter object?

Yes, inertia is the tendency of an object to resist changes in its state of motion. Heavier objects have more inertia than lighter objects because they require more force to accelerate or decelerate.


Why do objects that experience the same amount of force accelerate at different rates?

Objects that experience the same amount of force can accelerate at different rates due to differences in their mass. Heavier objects require more force to accelerate at the same rate as lighter objects. This is explained by Newton's second law of motion, which states that acceleration is directly proportional to force and inversely proportional to mass.


Why are some objects move faster thanthe other?

Objects can move at different speeds due to differences in their mass, applied force, and surface conditions. Heavier objects typically require more force to accelerate, while lighter objects can accelerate more quickly. Factors like friction and air resistance can also affect how fast an object can move.


What effect does the mass of a rocket have on its acceleration?

A heavier rocket will have a lower acceleration compared to a lighter rocket, assuming the same amount of force is applied. This is because the heavier rocket will require more force to overcome its inertia and accelerate.


What does changing the mass of an object do the the force of an object?

Changing the mass of an object does not directly affect the force acting on it. However, according to Newton's second law (F = ma), increasing the mass of an object will require a larger force to accelerate it at the same rate. Similarly, decreasing the mass of an object will require less force to accelerate it.


Will a heavier ball or a lighter ball launch farther in a catapult?

A lighter ball will generally launch farther in a catapult because it requires less force to accelerate and propel. A heavier ball would require more force to launch and would not travel as far due to the increased mass.


The heavier the particles how does it move?

Heavier particles tend to move more slowly compared to lighter particles due to the increased inertia. This means that heavier particles require more force to accelerate or change direction. In a fluid medium, heavier particles may settle towards the bottom under the influence of gravity.


Which ball requires the most force to roll it 10 meters?

A heavier ball will require more force to roll it 10 meters compared to a lighter ball. This is because the force required to overcome inertia and friction is greater in heavier objects. Therefore, a heavier ball will need more force to accelerate and maintain its speed over the 10-meter distance.


How does mass affect the motion of an object?

Mass affects the motion of an object by influencing its inertia. Objects with more mass have greater inertia, making it harder to change their motion. Heavier objects may require more force to accelerate, decelerate, or change direction compared to lighter objects.


What happeneds to the speed of particles that are heavier?

Due to "inertia" and the nature of "mass", heavier particles require more energy to change their velocity. It takes more energy to make them move faster or slower or to change their "direction".


Can a light object that was hit with a small force accelerate as rapidly as a heavier object with hit with a big force Why or why not?

No, the acceleration of an object depends on both the force applied and the object's mass. A heavier object will require a larger force to accelerate as rapidly as a lighter object with a smaller force. This is described by Newton's second law, which states that acceleration is directly proportional to the force applied and inversely proportional to the object's mass.