none of the above
Force centripetal = (mass * velocity^2) ÷ radius
More mass , more force needed to keep object in the circle
Object going faster, more force needed to keep object in the circle
Larger radius, less force needed to keep object in the circle
That is why mass and velocity are in the numerator ( multipliers)
and Radius is in the denominator ( divider)
-- The distance around the circle is 6feet 3.4inches. -- The area of the circle is 3.142 square feet.
The distance around a circle is its circumference and it can be measured in any linear units.
Yes it is an aliphatic hydrocarbon with a C triple bond C
This question is similar to "How does linear motion function? With the exception of the planetary system, first it must be driven by power. When driven and no load applied to it, then its just an object in motion. In other words a motion without load or work whether it be rotation or linear motion does not serve a function.
In the case of a solid rotating object, the rotational speed is the same for all parts. The linear speed is greatest at points that are furthest from the axis of rotation - in other words, at the equator.
linear centripetal uniform
a) A circle is not the graph of a function. b) A circle is not linear.
The linear speed will be: v = 2 * pi * r * f, where r is circle radius, f is rotations per second. To calculate tension, we can use formula for centripetal force, which is: F = mv2 / r. This centripetal force will be the tension in the string.
No, but it is non-linear.
43 linear feet. The diameter of the circle is the longest distance that you can have in the circle.
In the same way that objects in linear motion tend to remain that way, objects which are rotating tend to keep rotating. Thus, we need both linear and angular (rotational) motion.
While your speed may be the same, your direction is constantly changing. So there is an angular acceleration. The force caused by this is called centripetal force, and it points towards the center of the circle. You can know this by feeling it, or by drawing a picture of the force system. Acceleration is broken up into normal and tangential components for rotation. The tangential is zero because you are moving at a constant speed, however the normal is not zero, and points to the center of the circle by definition.
The answer depends on what aspect of the circle you would consider to be a linear measure. The diameter of the circle would be 7 ft.
There are 10 linear feet in a 10 foot diameter circle.
If this is a homework assignment, you really should consider trying it by yourself first, otherwise the value of the reinforcement of the lesson by the act of doing the homework will be lost on you.The circumference of a circle of radius 1 is 2 pi, therefore, a point on that circle rotating at a speed of 1 revolution per second has a linear (tangent) velocity of 2 pi feet per second.
A linear foot is the same as a foot. So, an 18-foot diameter circle would measure 18 linear feet in diameter!
The circumference of a circle is its boundary - it is a perimeter and therefore is a linear measure. Whether it is a smooth curve, as in the case of a circle, or a set of line segments meeting at vertices is irrelevant to its being linear.