What is the relationship between centripetal force and hanging weight?
What is the relationship between centripetal force and hanging weight?
The centripetal force will be supplied by a mass m2 that is attached to the bottom of the nylon cord. See the above figure. The weight of this hanging mass is determined by the equation: The weight of the hanging mass is the centripetal force applied to mass m1, keeping it in a horizontal circular orbit.
How does mass affect circular motion?
According to the equation, the acceleration of an object is inversely proportional to mass of the object. In other words, the bigger the mass value is, the smaller that the acceleration value will be. As mass increases, the acceleration decreases.
Does mass Affect period of circular motion?
1 Answer. An increase in the mass of he orbited body causes a decrease in the orbital period.
Why is centripetal force same as weight?
If the only forces acting on a body are centripetal and weight (C and W) and that body under consideration is not moving such that acceleration a = 0, then f = ma = 0 = C + W; so that C = -W, the centripetal force must be equal and opposite to the weight.
What is the relationship between the hanging force and the calculated force?
The force equation used in the case of a hanging load from a bar is Isaac Newton’s Second Law of Motion: “F = m_a,” where the sum of all forces is equal to the mass of the load times its acceleration. If the load is not moving, that acceleration turns into gravitational acceleration, g.
Does the mass of an object affect centripetal force?
Where is the centripetal acceleration on an object, is the velocity of an object, and is the radius in which the object moves in a circle. We can see that mass does not play a role in the centripetal acceleration of an object, so no matter what happens to the mass, the centripetal acceleration remains the same.
What is the relationship between centripetal force and mass?
What is the relationship between centripetal force and mass? The centripetal force is proportional to the mass. Doubling the mass doubles the centripetal force. Similarly, dividing the mass by the factor ten reduces the centripetal force tenfold.
How do you find mass using centripetal force?
To calculate the centripetal force for an object travelling in a circular motion, you should:
- Find the square of its linear velocity, v² .
- Multiply this value by its mass, m .
- Divide everything by the circle’s radius, r .
What is the relationship between centripetal force and the mass of an object?
1 Answer. a = F/m , This means centripetal acceleration is generally inversely proportional to the mass of an object.
Does mass affect centripetal acceleration?
Does mass affect orbital radius?
In general, orbital radius does not depend on the mass of the orbiting object. Correct answer: In general, orbital radius depends on the mass of the orbiting object.