a globe.
A line segment drawn from the center of a circle to any point on the circle is called a radius. The radius is constant for a given circle and is crucial in defining the circle's size. All points on the circumference of the circle are equidistant from the center, with this distance being the length of the radius.
Yes, if a point is equidistant from the endpoints of a segment, it must be the midpoint of that segment. This is because the midpoint is defined as the point that divides the segment into two equal lengths, making it the only point that maintains equal distance to both endpoints. Therefore, being equidistant from both endpoints confirms that the point is indeed the midpoint.
The midpoint of an axis on the coordinate plane is not necessarily a center in a general sense, as it depends on the context. For example, the midpoint of the x-axis is (0, 0), but whether this point is a center depends on the geometric shape or figure being considered. In some cases, such as for symmetric shapes like circles or rectangles, the midpoint can serve as a center, while for others, it may not.
There is no such thing as a two-dimensional space. By virtue of being a space, you are talking three dimensions. It sounds like what you're really asking is: What is a two-dimensional AREA bounded by an infinite set of points (or infinite number of sides - same thing)? Typically, that would be a circle...however you didn't specify the points all had to be equidistant from its center so it could be any irregular shape containing at least one curve (any curved portion would automatically have to contain infinite points). The best way to ask the question so that the only answer would be 'a circle' is: What is a two-dimensional area formed by an infinite set of points, all of which are equidistant from its center?
Rotating a figure 180 degrees counterclockwise is equivalent to rotating it 180 degrees clockwise. Both transformations result in the figure being turned upside down, placing each point at its diametrically opposite position relative to the center of rotation. This transformation can also be represented as reflecting the figure across both the x-axis and y-axis simultaneously.
Yes, you feel the centrifugal force when driving around sharp curves. It is the force that pushes you away from the center of the curve, making you feel like you are being pulled outward.
The equator.
Multiple curves, or arcs, comprise a wave which generally consists of a crest (high point) and a trough (low point). So generally speaking, a wavy line would be two or more curved lines that are connected.
To flatter a slender figure you must accentuate curves with your clothing. Boosting the breat area and flaring the hip area, without being to baggy or droopy.
Parallel-being everywhere equidistant and not intersectingLine-A geometric object that is straight, infinitely long and infinitely thin.So two "wavy lines" (that never intersect and are equidistant) would fulfill the definition of "parallel," but not of "line."
This is because the intersection would be impossible. If they crossed then they would have the same utility rather than being two different curves.
Yes, if a point is equidistant from the endpoints of a segment, it must be the midpoint of that segment. This is because the midpoint is defined as the point that divides the segment into two equal lengths, making it the only point that maintains equal distance to both endpoints. Therefore, being equidistant from both endpoints confirms that the point is indeed the midpoint.
The distance from the fixed point at the center of a circle to any point on the curve is called the radius.
The planets orbit in an ellipse. An ellipse is described as a geometric shape where the sum of the distance from the foci at any point is the same. An ellipse has three main points. Two foci and a center like a circle. While a true circle has all its external points equidistant from its center, an ellipse measures its points from the foci, which are equidistant to the center point at on both sides. The planets ellipse is closer to a circle than an all out ellipse, however, the orbit is still a true ellipse. It is also true that the shape of a planet's orbit (an ellipse) is a conic section, i.e. the intersection of a right circular cone where the intersecting plane is not perpendicular to the cone's axis, but less than being parallel to one of the cone's nappes.
If you have two objects of equal weight on either end of a lever, then they must be equidistant from the fulcrum to make the lever balance.If one object weighs more than the other, then that one has to be closer to the fulcrum.
It's called being a highschool student who goes to a school that curves grades very generously!
A nation loses land after being defeated in a war.