Yes, the mass of a marble affects its motion because objects with larger mass have greater inertia, meaning they resist changes in their motion more. A heavier marble will require more force to move it compared to a lighter marble of the same size.
Speed affects a marble by determining how fast it moves across a surface and how quickly it accelerates or decelerates. Motion affects a marble by influencing its direction and trajectory as it rolls or bounces. Both speed and motion are key factors in determining how a marble will interact with its environment.
The forces acting on a marble, such as gravity and friction, determine its acceleration and direction of motion. These forces can cause the marble to speed up, slow down, change direction, or come to a stop depending on their magnitude and direction. The net force acting on the marble will ultimately determine its overall motion.
The steeper the angle of the ramp, the faster the marble will roll down due to gravity exerting a greater force. A shallower angle will result in slower motion as the gravitational force is weaker. The angle of the ramp directly impacts the speed and acceleration of the marble as it moves.
The catapult has more mass than the marble, as it is a larger object designed to launch the marble. The marble is smaller and has less mass than the catapult.
In elastic collisions, the mass of the target marble is equal to the mass of the shooter marble since momentum is conserved, so the target and shooter will have the same mass. In inelastic collisions, the mass of the target marble may be greater or lesser than the mass of the shooter marble depending on the degree of energy loss during the collision.
Speed affects a marble by determining how fast it moves across a surface and how quickly it accelerates or decelerates. Motion affects a marble by influencing its direction and trajectory as it rolls or bounces. Both speed and motion are key factors in determining how a marble will interact with its environment.
The forces acting on a marble, such as gravity and friction, determine its acceleration and direction of motion. These forces can cause the marble to speed up, slow down, change direction, or come to a stop depending on their magnitude and direction. The net force acting on the marble will ultimately determine its overall motion.
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The steeper the angle of the ramp, the faster the marble will roll down due to gravity exerting a greater force. A shallower angle will result in slower motion as the gravitational force is weaker. The angle of the ramp directly impacts the speed and acceleration of the marble as it moves.
The catapult has more mass than the marble, as it is a larger object designed to launch the marble. The marble is smaller and has less mass than the catapult.
In elastic collisions, the mass of the target marble is equal to the mass of the shooter marble since momentum is conserved, so the target and shooter will have the same mass. In inelastic collisions, the mass of the target marble may be greater or lesser than the mass of the shooter marble depending on the degree of energy loss during the collision.
A change in mass can affect an object's motion by altering its inertia. An object with a larger mass will require more force to accelerate or decelerate compared to an object with a smaller mass. As a result, a change in mass can impact an object's speed, acceleration, and overall movement.
increasing mass affects the force of objects in motion because it will slow the object down than its neighbor
increasing mass affects the force of objects in motion because it will slow the object down than its neighbor
For a pendulum, factors such as the length of the string, the mass of the bob, and the angle of release can affect the simple harmonic motion. In a mass-spring system, the factors include the stiffness of the spring, the mass of the object attached to the spring, and the amplitude of the oscillations. In both systems, damping (air resistance or friction) can also affect the motion.