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The magnitude of centripetal force is calculated by the relation Fc=mv2/r where m is mass of the object,v speed of the object (constant) and r radius of the curved path.If the radius of curved path is large then centripetal force is decrease. Therefore it is easy to turn along a curved path of large radius as compared to a curved path of short radius.
Find the radius of the larger wheel.Find the radius of the axle.Divide the radius of the large wheel by the radius of the axle to find the mechanical advantage. MA =r (large wheel )/ r (axle)
Not at all, as long as the mass of the 'bob' is large compared to the mass of the string.
An amoeba is about 200 - 700 micrometers, and an air particle is about 0.00001 micrometers. Thus, an amoeba is about 5 million times bigger.
Conver lenses curve to capture more light. Putting a relective surface on such a lensr allows for more images to be captured without using large mirrors. Essenially these mirors allow for security or personel to view a large portion of a store with less reflective surface.
The magnitude of centripetal force is calculated by the relation Fc=mv2/r where m is mass of the object,v speed of the object (constant) and r radius of the curved path.If the radius of curved path is large then centripetal force is decrease. Therefore it is easy to turn along a curved path of large radius as compared to a curved path of short radius.
Atomic radius of Iodine is very large compared to potassium.
by radius yes, 2nd largest
Polaris has a radius which is around 5000 as big and so it occupies a volume which is approximately 125 billion times as large.
The radius is the large bone in the arm.
There is an inside radius and an outside radius. Both are the radius of the curve required by the car to maximize the turning capabilities of the vehicle. The variables are the length of the vehicle and turn angle of the tires relative to the body of the car. So a typical car would be much less than a large truck. All makes and models vary.
large atomic radius.large atomic radius.
The diameter is twice as large as the radius.
francium
right
a large curve, similar to the Sakic curves on EASTON sticks
Compared to other planets, yes it is small. But compared to a house, no, it is very large...