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If you mean exterior angle is twice its interior angle then an equilateral triangle will fit the given description because each interior angle is 60 degrees and each exterior angle is 120 degrees

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Q: What is the name of the regular polygon whose exterior angles are twice its exterior angles?
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What polygon has twice as many sides as another polygon but have fewer than 8 sides?

A hexagon and a triangle.

What are 26 geometrical facts and features fom A to Z?

Angles are classed as acute, right, obtuse and reflex Base angles of an isosceles triangle are equal Circumference of a circle is its perimeter and has a full turn of 360 degrees Diameter of a circle is twice its radius Equilateral triangle has 3 equal sides and 3 equal angles of 60 degrees Fourteen degrees is an acute angle which is greater than 0 but less than 90 degrees Geometry is derived from a Greek word meaning land or earth measurement Heptagon is a 7 sided polygon Interior angles of any polygon are: (n-2)*180 whereas 'n' is number of its sides Joined line segments create angles and polygons Kite is a 4 sided quadrilateral Line segments have end points and a mid point Multi-faced shapes are polyhedrons Nonagon is a 9 sided polygon Obtuse angle is greater than 90 but less than 180 degrees Perpendicular lines meet at right angles which is 90 degrees Quadrilaterals are 4 sided polygons Right angle is 90 degrees and a reflex angle is greater than 180 degrees Square is a regular polygon with 4 equal sides and 4 equal right angles Triangle has 3 sides and 3 interior angles that add up to 180 degrees Undecagon is an 11 sided polygon Vertical opposite equal angles are created when lines cross as in X Width times breadth is the area of a rectangle X axis is the horizontal number line on the Cartesian plane Y axis is the vertical number line on the Cartesian plane Z as a letter has equal alternate angles

You are a polygon with twice as many sides as a triangle all of your sides are the same length what are you?

a hexagon

What is a polygon with 4 angles?

Polygon From Wikipedia, the free encyclopediaJump to: navigation, searchFor other uses, see Polygon (disambiguation).Some polygons of different kindsIn geometry a polygon ( /ˈpɒlɪɡɒn/) is traditionally a plane figure that is bounded by a closed path or circuit, composed of a finite sequence of straight line segments (i.e., by a closed polygonal chain). These segments are called its edgesor sides, and the points where two edges meet are the polygon's vertices (singular: vertex) or corners. An n-gon is a polygon with n sides. The interior of the polygon is sometimes called its body. A polygon is a 2-dimensional example of the more general polytope in any number of dimensions.The word "polygon" derives from the Greek πολύς (polús) "much", "many" and γωνία (gōnía) "corner" or "angle". (The word γόνυ gónu, with a short o, is unrelated and means "knee".) Today a polygon is more usually understood in terms of sides.Usually two edges meeting at a corner are required to form an angle that is not straight (180°); otherwise, the line segments will be considered parts of a single edge.The basic geometrical notion has been adapted in various ways to suit particular purposes. For example in the computer graphics (image generation) field, the term polygon has taken on a slightly altered meaning, more related to the way the shape is stored and manipulated within the computer.Contents[hide] 1 Classification 1.1 Number of sides1.2 Convexity and types of non-convexity1.3 Symmetry1.4 Miscellaneous2 Properties 2.1 Angles2.2 Area and centroid 2.2.1 Self-intersecting polygons2.3 Degrees of freedom2.4 Product of diagonals of a regular polygon3 Generalizations of polygons4 Naming polygons5 Constructing higher names6 History7 Polygons in nature 7.1 In computer graphics8 See also9 References 9.1 Notes9.2 Bibliography10 External linksClassificationSome different types of polygon Number of sidesPolygons are primarily classified by the number of sides, see naming polygons below. Convexity and types of non-convexityPolygons may be characterised by their convexity or type of non-convexity: Convex: any line drawn through the polygon (and not tangent to an edge or corner) meets its boundary exactly twice. Equivalently, all its interior angles are less than 180°.Non-convex: a line may be found which meets its boundary more than twice. In other words, it contains at least one interior angle with a measure larger than 180°.Simple: the boundary of the polygon does not cross itself. All convex polygons are simple.Concave: Non-convex and simple.Star-shaped: the whole interior is visible from a single point, without crossing any edge. The polygon must be simple, and may be convex or concave.Self-intersecting: the boundary of the polygon crosses itself. Branko Grünbaum calls these coptic, though this term does not seem to be widely used. The term complex is sometimes used in contrast to simple, but this risks confusion with the idea of a complex polygon as one which exists in the complex Hilbert plane consisting of two complex dimensions.Star polygon: a polygon which self-intersects in a regular way.SymmetryEquiangular: all its corner angles are equal.Cyclic: all corners lie on a single circle.Isogonal or vertex-transitive: all corners lie within the same symmetry orbit. The polygon is also cyclic and equiangular.Equilateral: all edges are of the same length. (A polygon with 5 or more sides can be equilateral without being convex.) (Williams 1979, pp. 31-32)Isotoxal or edge-transitive: all sides lie within the same symmetry orbit. The polygon is also equilateral.Regular. A polygon is regular if it is both cyclic and equilateral. A non-convex regular polygon is called a regular star polygon.MiscellaneousRectilinear: a polygon whose sides meet at right angles, i.e., all its interior angles are 90 or 270 degrees.Monotone with respect to a given line L, if every line orthogonal to L intersects the polygon not more than twice.PropertiesWe will assume Euclidean geometry throughout. AnglesAny polygon, regular or irregular, self-intersecting or simple, has as many corners as it has sides. Each corner has several angles. The two most important ones are: Interior angle - The sum of the interior angles of a simple n-gon is (n − 2)π radians or (n − 2)180 degrees. This is because any simple n-gon can be considered to be made up of (n − 2) triangles, each of which has an angle sum of π radians or 180 degrees. The measure of any interior angle of a convex regular n-gon is radians or degrees. The interior angles of regular star polygons were first studied by Poinsot, in the same paper in which he describes the four regular star polyhedra.Exterior angle - Imagine walking around a simple n-gon marked on the floor. The amount you "turn" at a corner is the exterior or external angle. Walking all the way round the polygon, you make one full turn, so the sum of the exterior angles must be 360°. Moving around an n-gon in general, the sum of the exterior angles (the total amount one rotates at the vertices) can be any integer multiple d of 360°, e.g. 720° for a pentagram and 0° for an angular "eight", where d is the density or starriness of the polygon. See also orbit (dynamics).The exterior angle is the supplementary angle to the interior angle. From this the sum of the interior angles can be easily confirmed, even if some interior angles are more than 180°: going clockwise around, it means that one sometime turns left instead of right, which is counted as turning a negative amount. (Thus we consider something like the winding number of the orientation of the sides, where at every vertex the contribution is between −½ and ½ winding.)Area and centroidNomenclature of a 2D polygon. The area of a polygon is the measurement of the 2-dimensional region enclosed by the polygon. For a non-self-intersecting (simple) polygon with n vertices, the area and centroid are given by:[1]To close the polygon, the first and last vertices are the same, i.e., xn,yn = x0,y0. The vertices must be ordered according to positive or negative orientation (counterclockwise or clockwise); if they are ordered negativly, the value given by the area formula will be negative but correct in absolute value. This is commonly called the Surveyor's Formula. [2]The area formula is derived by taking each edge AB, and calculating the (signed) area of triangle ABO with a vertex at the origin O, by taking the cross-product (which gives the area of a parallelogram) and dividing by 2. As one wraps around the polygon, these triangles with positive and negative area will overlap, and the areas between the origin and the polygon will be cancelled out and sum to 0, while only the area inside the reference traingle remains. This is why the formula is called the Surveyor's Formula, since the "surveyor" is at the origin; if going counterclockwise, positive area is added when going from left to right and negative area is added when going from right to left, from the perspective of the origin.The formula was described by Meister[citation needed] in 1769 and by Gauss in 1795. It can be verified by dividing the polygon into triangles, but it can also be seen as a special case of Green's theorem.The area A of a simple polygon can also be computed if the lengths of the sides, a1,a2, ..., an and the exterior angles, are known. The formula isThe formula was described by Lopshits in 1963.[3]If the polygon can be drawn on an equally spaced grid such that all its vertices are grid points, Pick's theorem gives a simple formula for the polygon's area based on the numbers of interior and boundary grid points.If any two simple polygons of equal area are given, then the first can be cut into polygonal pieces which can be reassembled to form the second polygon. This is the Bolyai-Gerwien theorem.The area of a regular polygon is also given in terms of its inscribed circle of radius r by.The area of a regular n-gon with side s inscribed in a unit circle is.The area of a regular n-gon inscribed in a circle of radius R is given by.The area of a regular n-gon, inscribed in a unit-radius circle, with side s and interior angle θ can also be expressed trigonometrically as.The sides of a polygon do not in general determine the area.[4] However, if the polygon is cyclic the sides do determine the area. Of all n-gons with given sides, the one with the largest area is cyclic. Of all n-gons with a given perimeter, the one with the largest area is regular (and therefore cyclic).[5]Self-intersecting polygonsThe area of a self-intersecting polygon can be defined in two different ways, each of which gives a different answer:Using the above methods for simple polygons, we discover that particular regions within the polygon may have their area multiplied by a factor which we call the density of the region. For example the central convex pentagon in the centre of a pentagram has density 2. The two triangular regions of a cross-quadrilateral (like a figure 8) have opposite-signed densities, and adding their areas together can give a total area of zero for the whole figure.Considering the enclosed regions as point sets, we can find the area of the enclosed point set. This corresponds to the area of the plane covered by the polygon, or to the area of a simple polygon having the same outline as the self-intersecting one (or, in the case of the cross-quadrilateral, the two simple triangles).Degrees of freedomAn n-gon has 2n degrees of freedom, including 2 for position, 1 for rotational orientation, and 1 for over-all size, so 2n − 4 for shape. In the case of a line of symmetry the latter reduces to n − 2. Let k ≥ 2. For an nk-gon with k-fold rotational symmetry (Ck), there are 2n − 2 degrees of freedom for the shape. With additional mirror-image symmetry (Dk) there are n − 1 degrees of freedom.Product of diagonals of a regular polygonFor a regular n-gon inscribed in a unit-radius circle, the product of the distances from a given vertex to all other vertices equals n. Generalizations of polygonsIn a broad sense, a polygon is an unbounded (without ends) sequence or circuit of alternating segments (sides) and angles (corners). An ordinary polygon is unbounded because the sequence closes back in itself in a loop or circuit, while an apeirogon (infinite polygon) is unbounded because it goes on for ever so you can never reach any bounding end point. The modern mathematical understanding is to describe such a structural sequence in terms of an "abstract" polygon which is a partially ordered set (poset) of elements. The interior (body) of the polygon is another element, and (for technical reasons) so is the null polytope or nullitope. A geometric polygon is understood to be a "realization" of the associated abstract polygon; this involves some "mapping" of elements from the abstract to the geometric. Such a polygon does not have to lie in a plane, or have straight sides, or enclose an area, and individual elements can overlap or even coincide. For example a spherical polygon is drawn on the surface of a sphere, and its sides are arcs of great circles. So when we talk about "polygons" we must be careful to explain what kind we are talking about.A digon is a closed polygon having two sides and two corners. On the sphere, we can mark two opposing points (like the North and South poles) and join them by half a great circle. Add another arc of a different great circle and you have a digon. Tile the sphere with digons and you have a polyhedron called a hosohedron. Take just one great circle instead, run it all the way round, and add just one "corner" point, and you have a monogon or henagon-although many authorities do not regard this as a proper polygon.Other realizations of these polygons are possible on other surfaces, but in the Euclidean (flat) plane, their bodies cannot be sensibly realized and we think of them as degenerate.The idea of a polygon has been generalized in various ways. Here is a short list of some degenerate cases (or special cases, depending on your point of view):Digon. Interior angle of 0° in the Euclidean plane. See remarks above re. on the sphere.Interior angle of 180°: In the plane this gives an apeirogon (see below), on the sphere a dihedronA skew polygon does not lie in a flat plane, but zigzags in three (or more) dimensions. The Petrie polygons of the regular polyhedra are classic examples.A spherical polygon is a circuit of sides and corners on the surface of a sphere.An apeirogon is an infinite sequence of sides and angles, which is not closed but it has no ends because it extends infinitely.A complex polygon is a figure analogous to an ordinary polygon, which exists in the complex Hilbert plane.Naming polygonsThe word "polygon" comes from Late Latin polygōnum (a noun), from Greek polygōnon/polugōnon πολύγωνον, noun use of neuter of polygōnos/polugōnos πολύγωνος (the masculine adjective), meaning "many-angled". Individual polygons are named (and sometimes classified) according to the number of sides, combining a Greek-derived numerical prefix with the suffix -gon, e.g. pentagon, dodecagon. The triangle, quadrilateral or quadrangle, and nonagon are exceptions. For large numbers, mathematicians usually write the numeral itself, e.g. 17-gon. A variable can even be used, usually n-gon. This is useful if the number of sides is used in a formula. Some special polygons also have their own names; for example the regular star pentagon is also known as the pentagram.

How do you count the vertices on a prism?

You count the number of vertices in the polygon that forms the base. The prism has twice as many vertices.

Related questions

What is the name of the regular polygon whose interior angles are twice its exterior angles?


If the sum of the measures of the interior angles of a polygon is twice the sum of its exterior angles how many sides does it have?

sum of exterior angles in a polygon is always equal to 3600,sum of all the interior angles is given by (n-2)1800, where n is the number of sides of the polygon.According to the question,(n-2)1800=2(3600)n-2=4so n=6answer:6

In a regular polygon the ratio of the measure of the exterior angle to the measure of the adjacent interior angle is 4 to 1 how many sides does the polygon have Please show your work?

This is not possible for a normal regular polygon. (A regular polygon has all equal angles and all equal sides. A normal polygon has no intersecting edges.)The smallest regular polygon is an equilateral triangle (a three sided polygon), whose exterior angle measure is twice the measure of its interior angle. A four-sided polygon (a square) has equal interior and exterior angle measures of 90⁰. Starting from a five-sided polygon, the exterior angle measure is smaller than the interior angle measure.Let's assume that the given information is true. So we need to verify it.Let's say that the interior angle of the regular polygon has a measure of x degrees, and the measure of the exterior angle of that polygon is 4x degrees.Since the sum of the interior and the exterior angles of the polygon is 180 degrees (a straight line), the interior angle is 36 degrees.4x + x = 1805x = 1805x/5 = 180/5x = 36The sum of the angles of a polygon = 180⁰(n - 2), where n is the number of the sides of the polygon.The measure of one of the angles of a polygon = 180⁰(n - 2)/n. Substituting the angle measure of 36⁰ into this formula, we have:36⁰ = 180⁰(n - 2)/n (multiply by n to both sides)36⁰n = 180⁰(n - 2)36⁰n = 180⁰n - 360⁰ (add 360⁰ and subtract 36⁰n to both sides)360⁰ = 144⁰n (divide by 144⁰ to both sides)2.5 = n !!That means that a such normal polygon does not exist.

I am a polygon with twice as many sides as a triangle all of my sides are the same lenght what am i?

A regular hexagon

What is a polygon with twice as many sides as a triangle and all your sides are the same length. what are you?

A regular hexagon

If you fold a polygon half twice to make a rectangle what would the polygon look like?

the polygon would be a square

What is a polygon that has twice as many sides as another polygon you have fewer than 8 sides what are you?


What polygon has twice as many sides as another polygon but have fewer than 8 sides?

A hexagon and a triangle.

How many sides are there in the polygon if the number of diagonals is twice as the number of sides?

A 7 sided polygon has 14 diagonals

How long is twice the size of a regular size ruler in inches?

Twice the size of a regular ruler

What is a polygon that has twice as many sides as another polygon that has fewer than 8 sides?

a hexagon ( triangle has 3 and a hexagon has 6)

What is the name of a polygon that has twice as many sides as a quadrilateral?

octagon-8 sides