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What is the eq of constant for a sphere rolling in a frictional less incline surface?
The equation for the constant acceleration of a sphere rolling without slipping on a frictionless inclined plane is given by a = g * sin(theta) / (1 + (I / (m * r^2))), where a is the acceleration, g is the acceleration due to gravity, theta is the angle of the incline, I is the moment of inertia of the sphere, m is the mass of the sphere, and r is the radius of the sphere.
What is an example of constant motion?
A ball rolling at a constant speed at the same rate of speed on a still surface.
What affects the speed of a rolling ball?
The factors that affect the speed of a rolling ball include the force applied to the ball, the incline or surface it is rolling on, the mass and size of the ball, and the presence of friction. A greater force, steeper incline, lighter ball, and lower friction will generally result in a faster rolling speed.
What is the state of equilibrium of a rolling ball?
The state of equilibrium of a rolling ball occurs when the forces acting on it are balanced, resulting in no acceleration. In this state, the ball will continue rolling at a constant speed in a straight line unless acted upon by an external force.
A ball rolling down an incline has its minimum speed?
The minimum speed of a ball rolling down an incline occurs when all its initial potential energy at the top of the incline is converted to kinetic energy at the bottom, without any loss to friction or other factors. This minimum speed can be calculated using the principle of conservation of energy.
What is the eq of constant for a sphere rolling in a frictional less incline surface?
The equation for the constant acceleration of a sphere rolling without slipping on a frictionless inclined plane is given by a = g * sin(theta) / (1 + (I / (m * r^2))), where a is the acceleration, g is the acceleration due to gravity, theta is the angle of the incline, I is the moment of inertia of the sphere, m is the mass of the sphere, and r is the radius of the sphere.
What is an example of constant motion?
A ball rolling at a constant speed at the same rate of speed on a still surface.
Descrbe a real world situation where there is zero acceleration but some velocity.?
-- a car on cruise control rolling along at a constant speed on a straight section of highway -- a golf ball or squash ball rolling across the gym floor at a constant speed
What affects the speed of a rolling ball?
The factors that affect the speed of a rolling ball include the force applied to the ball, the incline or surface it is rolling on, the mass and size of the ball, and the presence of friction. A greater force, steeper incline, lighter ball, and lower friction will generally result in a faster rolling speed.
What pharohs' tombs were built using the incline plane and rolling pins?
Ospahe
After rolling halfway down an incline a marble's kinetic energy is?
The marble's kinetic energy is halfway between its initial and final energies. This is because kinetic energy is proportional to the square of the velocity, and velocity would have increased as the marble rolled down the incline, reaching its maximum velocity at the bottom.
What is the state of equilibrium of a rolling ball?
The state of equilibrium of a rolling ball occurs when the forces acting on it are balanced, resulting in no acceleration. In this state, the ball will continue rolling at a constant speed in a straight line unless acted upon by an external force.
A ball rolling down an incline has its minimum speed?
The minimum speed of a ball rolling down an incline occurs when all its initial potential energy at the top of the incline is converted to kinetic energy at the bottom, without any loss to friction or other factors. This minimum speed can be calculated using the principle of conservation of energy.
Which will have the greater acceleration rolling down an incline plane a large ball or a small ball?
If they are both solid, and the incline is the same, the rate of acceleration will be the same.
If a ball is rolling in a straight line and you push it to the right velocity Will?
If you push the ball to the right velocity in the same direction, it will continue moving in a straight line with the new velocity. If there are no other forces acting on it, it will maintain constant velocity due to inertia.
With your car drive select in PARK on an incline and the emergency brake off what keeps from rolling backwards?
the transmission
Which will have the greater acceleration rolling down an incline plane- a large ball or a small ball?
The small ball will have a greater acceleration rolling down an incline plane because it has less mass and experiences less inertia. This means that the force of gravity can accelerate the small ball more easily than the large ball.
