A clothesline can be a simple line strung between to upright fixed points, or it can be woven through a pulley system to allow the user to stand at a fixed position to use it.
Mechanical advantage of a fixed pulley
A cantilever has only one end or point fixed; this is an obvious difference between having two points or both ends fixed. The nature of bending moment is same throughout the span in the case of a cantilever beam whereas a fixed beam has both types of nature, i.e. sagging as well as hogging.
0 to 100 i think
Zero and one hundred degrees: the freezing and boiling points of water respectively.
It is a line segment.
the foci (2 focal points) and the distance between the vertices.
As fixed-size cells via a fixed channel between two points
You're trying to describe an "ellipse".
The fixed points of a function f(x) are the points where f(x)= x.
A segment only goes between 2 fixed points where a line goes on indefinitely
You would need to know the distance travelled between two fixed points and the time taken to travel between those two points.
A set of points in a plan that are equally distanced from a fixed point is called a circle. equation of a circle is: (x - h)2 + (y - k)2 = r2 Center = (h, k) Radius = r Since Radius (can vary for different circles on that plan) is at equal distance throughout the plan we can therefore say that a set of points in a plan that are equally distanced from a fixed point is called a circle.
A clothesline can be a simple line strung between to upright fixed points, or it can be woven through a pulley system to allow the user to stand at a fixed position to use it.
A degree is usually a division of a measure between two fixed points. Sometimes, as in the case of temperature scales, it is between two arbitrary points. In others, such as angular displacement, it is a subdivision of a turn.
Yes. The angle of incidence and reflection are equal.
the set of points equidistant from a fixed point