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WildFlower
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1. A flywheel about a string is wrapped. At the end of the string is a mass, 2kg, which is initially held staionary at the datum position. If the mass is released it will fall causing the flywheel to rotate, and after the mass has fallen a distance of h meters it has a linear velocity of v m/s whislt the flywheel the flywheel has a rotational velocity of W rad/s
The mass of the object is 2Kg, and the radius of the flywheel is 120mm. By using the principle of conservation of energy, show that the distance fallen, h, and the velocity, v, of the mass and the distance are related by the equation: h=v2(0.051+1.77I)
2. h=v2(0.051+1.77I)
3. I have made several attempts at this but I can't seem to find a relationship with the equation, is it the equation or is it just me?
The mass of the object is 2Kg, and the radius of the flywheel is 120mm. By using the principle of conservation of energy, show that the distance fallen, h, and the velocity, v, of the mass and the distance are related by the equation: h=v2(0.051+1.77I)
2. h=v2(0.051+1.77I)
3. I have made several attempts at this but I can't seem to find a relationship with the equation, is it the equation or is it just me?