Sunday, October 20, 2019
The 9 Most Common Shapes and How to Identify Them
The 9 Most Common Shapes and How to Identify Them SAT / ACT Prep Online Guides and Tips Youââ¬â¢ve probably learned a lot about shapes without ever really thinking about what they are. But understanding what a shape is is incredibly handy when comparing it to other geometric figures, such as planes, points, and lines. In this article, weââ¬â¢ll cover what exactly a shape is, as well as a bunch of common shapes, what they look like, and the major formulas associated with them. What Is a Shape? If someone asks you what a shape is, youââ¬â¢ll likely be able to name quite a few of them. But ââ¬Å"shapeâ⬠has a specific meaning, too- itââ¬â¢s not just a name for circles, squares, and triangles. A shape is the form of an object- not how much room it takes up or where it is physically, but the actual form it takes. A circle isnââ¬â¢t defined by how much room it takes up or where you see it, but rather the actual round form that it takes. A shape can be any size and appear anywhere; theyââ¬â¢re not constrained by anything because they donââ¬â¢t actually take up any room. Itââ¬â¢s kind of hard to wrap your mind around, but donââ¬â¢t think of them as being physical objects- a shape can be three-dimensional and take up physical room, such as a pyramid-shaped bookend or a cylinder can of oatmeal, or it can be two-dimensional and take up no physical room, such as a triangle drawn on a piece of paper. The fact that it has a form is what differentiates a shape from a point or a line. A point is just a position; it has no size, no width, no length, no dimension whatsoever. A line, on the other hand, is one-dimensional. It extends infinitely in either direction and has no thickness. Itââ¬â¢s not a shape because it has no form. Though we may represent points or lines as shapes because we need to actually see them, they donââ¬â¢t actually have any form. Thatââ¬â¢s what differentiates a shape from the other geometric figures- itââ¬â¢s two- or three-dimensional, because it has a form. Cubes, like those seen here, are three-dimensional forms of squares- both are shapes! The 6 Main Types of Two-Dimensional Geometric Shapes Picturing a shape just based on definition is difficult- what does it mean to have form but not take up space? Letââ¬â¢s take a look at some different shapes to better understand what exactly it means to be a shape! We often classify shapes by how many sides they have. A ââ¬Å"sideâ⬠is a line segment (part of a line) that makes up part of a shape. But a shape can have an ambiguous number of sides, too. Type 1: Ellipses Ellipses are round, oval shapes in which a given point (p) has the same sum of distance from two different foci. Oval An oval looks a bit like a smooshed circle- rather than being perfectly round, itââ¬â¢s elongated in some way. However, the classification is imprecise. There are many, many kinds of ovals, but the general meaning is that they are a round shape that is elongated rather than perfectly round, as a circle is.An oval is any ellipses where the the foci are in two different positions. Because an oval is not perfectly round, the formulas we use to understand them have to be adjusted. Itââ¬â¢s also important to note that calculating the circumference of an oval is quite difficult, so thereââ¬â¢s no circumference equation below. Instead, use an online calculator or a calculator with a built-in circumference function, because even the best circumference equations you can do by hand are approximations. Definitions Major Radius: the distance from the ovalââ¬â¢s origin to the furthest edge Minor Radius: the distance from the ovalââ¬â¢s origin to the nearest edge Formulas Area = $\Major \Radius*\Minor \Radius*Ãâ¬$ Circle How many sides does a circle have? Good question! Thereââ¬â¢s no good answer, unfortunately, because ââ¬Å"sidesâ⬠have more to do with polygons- a two-dimensional shape with at least three straight sides and typically at least five angles. Most familiar shapes are polygons, but circles have no straight sides and definitely lack five angles, so they are not polygons. So how many sides does a circle have? Zero? One? Itââ¬â¢s irrelevant, actually- the question simply doesnââ¬â¢t apply to circles. A circle isnââ¬â¢t a polygon, but what is it? A circle is a two-dimensional shape (it has no thickness and no depth) made up of a curve that is always the same distance from a point in the center.An oval has two foci at different positions, whereas a circle's foci are always in the same position. Definitions Origin: the center point of the circle Radius: the distance from the origin to any point on the circle Circumference: the distance around the circle Diameter: the length from one edge of the circle to the other $\bo{Ãâ¬}$: (pronounced like pie) 3.141592â⬠¦; ${\the \circumference \of \a \circle}/{\the \radius \of \a \circle}$; used to calculate all kinds of things related to circles Formulas Circumference = $Ãâ¬*\radius$ Area = $Ãâ¬*\radius^2$ Type 2: Triangles Triangles are the simplest polygons. They have three sides and three angles, but they can look different from one another. You might have heard of right triangles or isosceles triangles- those are different types of triangles, but all will have three sides and three angles. Because there are many kinds of triangles, there are lots of important triangle formulas, many of them more complex than others. The basics are included below, but even the basics rely on knowing the length of the triangleââ¬â¢s sides. If you donââ¬â¢t know the triangleââ¬â¢s sides, you can still calculate different aspects of it using angles or only some of the sides. Definitions Vertex: the point where two sides of a triangle meet Base: any of the triangleââ¬â¢s sides, typically the one drawn at the bottom Height: the vertical distance froma base to a vertex it is not connected to Formulas Area = ${\base*\height}/2$ Perimeter = $\side a + \side b + \side c$ Type 3: Parallelograms A parallelogram is a shape with equal opposite angles, parallel opposite sides, and parallel sides of equal length. You might notice that this definition applies to squares and rectangles- thatââ¬â¢s because squares and rectangles are also parallelograms! If you can calculate the area of a square, you can do it with any parallelogram. Definitions Length: the measure of the bottom or top side of a parallelogram Width: the measure of the left or right side of a parallelogram Formulas Area: $\length*\height$ Perimeter: $\Side 1 + \Side 2 + \Side 3 + \Side 4$ Alternatively, Perimeter: $\Side*4$ Rectangle A rectangle is a shape with parallel opposite sides, combined with all 90 degree angles. As a type of parallelogram, it has opposite parallel sides. In a rectangle, one set of parallel sides is longer than the other, making it look like an elongated square. Because a rectangle is a parallelogram, you can use the exact same formulas to calculate their area and perimeters. Square A square is a lot like a rectangle, with one notable exception: all its sides are equal length. Like rectangles, squares have all 90 degree angles and parallel opposite sides. Thatââ¬â¢s because a square is actually a type of rectangle, which is a type of parallelogram! For that reason, you can use the same formulas to calculate the area or perimeter of a square as you would for any other parallelogram. Rhombus A rhombus is- you guessed it- a type of parallelogram. The difference between a rhombus and a rectangle or square is that its interior angles are only the same as their diagonal opposites. Because of this, a rhombus looks a bit like a square or rectangle skewed a bit to the side. Though perimeter is calculated the same way, this affects the way that you calculate the area, because the height is no longer the same as it would be in a square or rectangle. Definition Diagonal: the length between two opposite vertices Formulas Area = ${\Diagonal 1*\Diagonal 2}/2$ Type 4: Trapezoids Trapezoids are four-sided figures with two opposite parallel sides. Unlike a parallelogram, a trapezoid has just two opposite parallel sides rather than four, which impacts the way you calculate the area and perimeter. Definitions Base: either of a trapezoidââ¬â¢s parallel sides Legs: either of the trapezoids non-parallel sides Altitude: the distance from one base to the other Formulas Area: $({\Base_1\length + \Base_2\length}/2)\altitude$ Perimeter: $\Base + \Base + \Leg + \Leg$ Type 5: Pentagons A pentagon is a five-sided shape. We typically see regular pentagons, where all sides and angles are equal, but irregular pentagons also exist. An irregular pentagon has unequal side and unequal angles, and can be convex- with no angles pointing inward- or concave- with an internal angle greater than 180 degrees. Because the shape is more complex, it needs to be divided into smaller shapes to calculate its area. Definitions Apothem: a line drawn from the pentagonââ¬â¢s center to one of the sides, hitting the side at a right angle. Formulas Perimeter: $\Side 1 + \Side 2 + \Side 3 + \Side 4 + \Side 5$ Area: ${\Perimeter*\Apothem}/2$ Type 6: Hexagons A hexagon is a six-sided shape that is very similar to pentagon. We most often see regular hexagons, but they, like pentagons, can also be irregular and convex or concave. Also like pentagons, a hexagonââ¬â¢s area formula is significantly more complex than that of a parallelogram. Formulas Perimeter: $\Side 1 + \Side 2 + \Side 3 + \Side 4 + \Side 5 + \Side 6$ Area: ${3âËÅ¡3*\Side*2}/2$ Alternatively, Area: ${\Perimeter*\Apothem}/2$ What AboutThree-Dimensional Geometric Shapes? There are also three-dimensional shapes, which donââ¬â¢t just have a length and a width, but also depth or volume. These are shapes you see in the real world, like a spherical basketball, a cylindrical container of oatmeal, or a rectangular book. Three-dimensional shapes are naturally more complex than two-dimensional shapes, with an additional dimension- the amount of space they take up, not just the form- to include when calculating area and perimeter. Math involving 2D shapes, such as those above, is called plane geometry because it deals specifically with planes, or flat shapes. Math involving 3D shapes like spheres and cubes is called solid geometry, because it deals with solids, another word for 3D shapes. Because solids are even more complex than the 2D shapes discussed above, theyââ¬â¢re worthy of their own discussion in a separate blog post coming soon! 2D shapes make up the 3D shapes we see every day! 3 Key Tips for Working With Shapes There are so many types of shapes that it can be tricky to remember which is which and how to calculate their areas and perimeters. Hereââ¬â¢s a few tips and tricks to help you remember them! #1: Identify Polygons Some shapes are polygons and some are not. One of the easiest ways to narrow down what type of shape something is is figuring outif it's a polygon. A polygon is comprised of straight lines that do not cross. Which of the shapes below are polygons and which are not? The circle and oval are not polygons, which means their area and perimeter are calculated differently. Learn more about how to calculate them using $Ãâ¬$ above! #2: Check for Parallel Sides If the shape youââ¬â¢re looking at is a parallelogram, itââ¬â¢s generally easier to calculate its area and perimeter than if it isnââ¬â¢t a parallelogram. But how do you identify a parallelogram? Itââ¬â¢s right there in the name- parallel. A parallelogram is a four-sided polygon with two sets of parallel sides. Squares, rectangles, and rhombuses are all parallelograms. Squares and rectangles use the same basic formulas for area- length times height. Theyââ¬â¢re also very easy to find perimeter for, as you just add all the sides together. Rhombuses are where things get tricky, because you multiply the diagonals together and divide by two. To determine what kind of parallelogram youââ¬â¢re looking at, ask yourself if it has all 90-degree angles. If yes, itââ¬â¢s either a square or a rectangle. A rectangle has two sides that are slightly longer than the others, whereas a square has sides of all equal length. Either way, you calculate the area by multiplying the length times the height and perimeter by adding all four sides together. If no, itââ¬â¢s probably a rhombus, which looks like if you took a square or rectangle and skewed it in either direction. In this case, youââ¬â¢ll find the area by multiplying the two diagonals together and dividing by two. Perimeter is found the same way that you would find the perimeter of a square or rectangle. #3: Count the Number of Sides Formulas for shapes that donââ¬â¢t have four sides can get quite tricky, so your best bet is to memorize them. If you have trouble keeping them straight, try memorizing the Greek words for numbers, such as: Tri: three, as in triple, meaning three of something Tetra: four, as in the number of squares in a Tetris block Penta: five, as in the Pentagon in Washington D.C., which is a large building in the shape of a Pentagon Hexa: six, as in hexadecimal, the six-digit codes often used for color in web and graphic design Septa: seven, as in Septa, the female clergy of Game of Thronesââ¬â¢ religion, which has seven gods Octo: eight, as in the eight legs of an octopus Ennea: nine, as in an enneagram, a common model for human personalities Deca: ten, as in a decathlon, in which athletes complete ten events Whatââ¬â¢s Next? If you're prepping for the ACT and want a little additional help on your geometry, check out this guide to coordinate geometry! If you're more the SAT type, this guide to triangles on the SAT geometry section will help you prepare for the test! Can't get enough of ACT math? This guide to polygons on the ACT will help you prepare with useful strategies and practice problems!
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