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A circle is the locus of a point which moves such that its distance from a fixed point is constant. .The fixed point is centre and fixed distance is radius of circle. Elements of circle are centre, radius and circumference.
That's a circle. The "fixed point" is the center of the circle, and the constant distance is its radius.
An arc with the centre at a distance of 91 cm from a fixed point.
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.
Draw a circle, with centre x and radius = 25 miles (allowing for the map scale).
A circle is the locus of a point which moves such that its distance from a fixed point is constant. .The fixed point is centre and fixed distance is radius of circle. Elements of circle are centre, radius and circumference.
It is the circle's radius
The center of the circle. That's how the circle is defined. (The collection of all points on a plane equidistant from a fixed point. The fixed point is the center and the fixed distance is the radius.)
That's a circle. The "fixed point" is the center of the circle, and the constant distance is its radius.
An arc with the centre at a distance of 91 cm from a fixed point.
The distance from the fixed point at the center of a circle to any point on the curve is called the radius.
Every point on the surface of a sphere is the same distance from a fixed point in 3-dimensional space.
It is a graph of all points which are are the same distance (the radius) from a fixed point (the centre).
It is the set of all points that are at a distance of 1 cm from a fixed point (called the centre).
The radius is always at a fixed, unchanging distance from the center of a circle to all the surrounding points.
The ionic radius of magnesium (Mg) affects its chemical properties. As the ionic radius decreases, the attraction between the nucleus and electrons increases, leading to higher reactivity and stronger bonding with other elements. This can influence properties such as solubility, melting point, and chemical reactivity of magnesium compounds.
Because gasses have no fixed melting and boiling point, they don't have fixed shape and volume. They also have no conductivity or magnetic properties.