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there is no net force.....
Jikan yo Tomare
When a yo-yo is hanging motionless from a string, two forces act on the string: tension force, which is the force exerted by the string to hold up the yo-yo, and the gravitational force, which is the force exerted by Earth pulling the yo-yo down. These two forces are equal in magnitude and opposite in direction, resulting in a state of equilibrium where the yo-yo does not accelerate.
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The force used on a yo-yo is tension, which comes from the string being pulled or released by the user. This tension creates the motion of the yo-yo spinning and moving up or down. Additionally, gravity also plays a role in pulling the yo-yo downward.
The main force that causes a yo-yo to slow down and stop is friction between the yo-yo string and the axle of the yo-yo. As the string rubs against the axle, it generates heat and dissipation of energy, leading to a decrease in the yo-yo's rotational motion until it comes to a halt.
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If the same net force is applied to a yo-yo with a mass of 0.5 kg, the rate of acceleration will be greater compared to a yo-yo with a higher mass. This is because acceleration is inversely proportional to mass according to Newton's second law of motion (F=ma), meaning that a lighter object will accelerate more for the same force applied.
Super Force - 1990 Yo Super Force 1-23 was released on: USA: 9 March 1991
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When a yo-yo is motionless, the forces acting on it are balanced. There are two main forces: gravity acting downward and the normal force exerted by the surface it rests on acting upwards. These forces are equal in magnitude and opposite in direction, resulting in zero net force and causing the yo-yo to remain motionless.
Not enough information. But basically, you need to use Newton's Second Law: you need to divide the force by the mass of the yo-yo.