exponential
The answer you are looking for is exponential. Flow 4, Radius 1.5 Flow 12.6, Radius 2 Flow 30.7, Raduis 2.5 ....etc Linear growth continues to increase at the same rate, whereas exponential growth increases at an expanding rate. Linear growth 1+1=2 2+1=3 3+1=4 Exponential 2x3=6 3x3=9 4x3=12
linear velocity= radius* angular velocity
(linear speed) = (rotational speed) x (radius or distance from the center) To use consistent measures, use radians/second for rotational speed, meters for the radius, and meters/second for the linear speed. If you know rotational speed in some other unit - for example, rpm (rotations per minute) - convert to radians per second first.
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
For circular motion, linear speed = angular speed (in radians) x radius. How the radius affects speed depends what assumptions you make about the problem. For example, if you assume the radius increases but the angular speed does not, then of course the linear speed will increase.
The answer you are looking for is exponential. Flow 4, Radius 1.5 Flow 12.6, Radius 2 Flow 30.7, Raduis 2.5 ....etc Linear growth continues to increase at the same rate, whereas exponential growth increases at an expanding rate. Linear growth 1+1=2 2+1=3 3+1=4 Exponential 2x3=6 3x3=9 4x3=12
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There is a direct linear relationship.There is a direct linear relationship.There is a direct linear relationship.There is a direct linear relationship.
Relationship between radius and area of a circle is nonlinear. Area = pi * radius^2, so it is like a quadratic. If you graphed radius on the horizontal, and area on the vertical, it would be a parabola (actually a half of a parabola, since you cannot have a negative radius).
The relationship between the radius and the diameter of a circle is that: radius = diameter /2
linear velocity= radius* angular velocity
The relationship between the radius and area of a circle is as follows: Area of circle = 3.14 x Radius x Radius or 22/7 x Radius x Radius
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The radius is half the diameter of a circle.
You must use the relationship between the inner radius and the outer radius. The relationship could very well be different every time you run into a problem like this, and I can't answer the question this time because you haven't described any relationship between them.
The radius is excatly half of the diameter
In relation to the area of a circle: pi*radius^2