A circle has an infinite number of reflective axes.
NO!!! Circle ; from its centre the distance to the edge(circumference) is equal . Ellipse(Oval) ;from its centre the distance to its edge(circumference) can vary. Casually, you can think of an oval as a squashed circle. In the coordianet plane ; A circle has the Equation x^2 + y^2 = 1 An Oval has the Equations x^2/a^2 + y^2/b^2 = 1 The 'a' & 'b' represent the eccentricity of the oval (ellipse), and the lengths of the major and minor axes.
it is because of diffused reflection,Diffuse reflection is the reflection of light from a surface such that an incident ray is reflected at many angles rather than at just one angle as in the case of specular reflection.
The circle around the sun, known as a solar halo, is caused by the refraction, reflection, and dispersion of sunlight by ice crystals in the atmosphere. This optical phenomenon typically appears as a bright ring around the sun and can sometimes also have tinges of color, such as red or green.
The term "mirror of your reflection" has no meaning, except possibly in prose. The word "reflection" can mean "an image seen in a mirror". Examples: "I looked in the mirror and saw my reflection." "After weeks marooned on the island, he barely recognized his own reflection in the mirror."
You mean the reflection is so equivalent to mirror reflection. No chance. It is only diffused
infinite number of axes
3
one
An infinite number; a circle is symmetrical by way of any line that passes through its center.
The reflection in a line will be another congruent circle.
In a sense, yes. This type of reflection, in which a function is reflected over both the x and y-axes, is a possible characteristic of odd functions and is known as origin reflection, or reflection about the origin.
A circle has infinite lines of symmetry
There are infinitely many axes of symmetry in mathematics.
Infinitely many. A circle is perfectly symmetrical in that any line drawn through the circle's center bisects it into two exactly equal parts. As approximations to a circle, standard polygons (n-gons with all sides length L) or order 3 (triangles) and above have an increasing number of axes of symmetry. As the number of sides increases without bound (and thus as the length of each side shrinks towards 0), the number of symmetrical axes also increases without bound. So from a certain twisted viewpoint, a circle can be looked at as a "special polygon" with an infinite number of sides which have no length. =)
a rectangle has 2 axes of symmetry
2 axes from angles to angles
a hexagon has 4 axes ofsymmetry.