Circumference of the path = pi times the diameter = 2 pi times the radius = 1.6 pi.
1200 rpm = 1200 circumferences per minute = (1,200 x 1.6 pi) = 1,920 pi inches/min
= 6,031.9 inches/minute (rounded)
= 502.7 feet/minute (rounded)
= 5.71 miles/hour (rounded)
A circular shape, with a radius of 91 feet ahs an area of pi*912 = 26,016 sq feet, approx.
The radius of a cylinder is half the thickness of its circular cross section.
9
pi radius squared. (radius squared, then multiply by pi.)
The answer will depend on what measure is required: length of a side, perimeter, radius or diameter (if circular), eccentricity (if an ellipse), area.The answer will depend on what measure is required: length of a side, perimeter, radius or diameter (if circular), eccentricity (if an ellipse), area.The answer will depend on what measure is required: length of a side, perimeter, radius or diameter (if circular), eccentricity (if an ellipse), area.The answer will depend on what measure is required: length of a side, perimeter, radius or diameter (if circular), eccentricity (if an ellipse), area.
The linear speed of the particle moving on a circular track can be found using the formula v = r * Ο, where v is the linear speed, r is the radius of the circle, and Ο is the angular speed of the particle.
the velocity will be velocity divided by square root of 2
A change in radius directly affects linear velocity in a rotational system. When the radius increases, linear velocity also increases because the circumference of the circle traveled is larger. Conversely, when the radius decreases, linear velocity decreases due to the smaller circumference of the circle.
Curve linear is antonym to linear. Circular is one among many curvelinear motions. In case of circular there will be a constant radius but in curvelinear radius would change at every instant
A circular shape, with a radius of 91 feet ahs an area of pi*912 = 26,016 sq feet, approx.
Linear velocity is directly proportional to the radius of the rotating object and the angular velocity. This relationship is described by the equation v = Ο * r, where v is the linear velocity, Ο is the angular velocity, and r is the radius.
The linear speed is directly proportional to the radius of rotation. An increase in radius will result in an increase in linear speed, while a decrease in radius will result in a decrease in linear speed. This relationship is governed by the equation v = Ο * r, where v is linear speed, Ο is angular velocity, and r is radius.
The radius of a cylinder is half the thickness of its circular cross section.
Linear velocity is directly proportional to the radius at which the object is moving and the angular velocity of the object. The equation that represents this relationship is v = rΟ, where v is the linear velocity, r is the radius, and Ο is the angular velocity. As the angular velocity increases, the linear velocity also increases, given the same radius.
divide the linear speed by the radius
rpm is a large (while radian/second is a small) scale unit of circular displacement (rotation) while meter/second is that of linear displacement.according to the relationv=rw wherev = linear velocity (in m/s)w (omega) = angular velocity / circular velocity in (rpm or rad/sec)r = radius of the circle in which body is rotating.we can assume that rpm times radius becomes equal to meter per second.Badeekh Akbar
26218.57 km/hr