## WebMath - Solve Your Math Problem

A line in geometry is has most of the same characteristics as it does in real life (and in algebra). A geometric line is straight, and it extends indefinitely in opposite directions. If two lines meet at a point, then they are said to intersect. An example of a line is shown below; note that the ends of the line have arrows that indicate the line continues indefinitely. How to Do Geometry Problems: Step-By-Step Solutions. You'll encounter lots of different types of geometry problems in school, but many of them can be solved using the same basic approach. Read on for a step-by-step explanation of how to solve geometry problems. Is there a different problem you would like further assistance with? Mathway currently does not support this subject. We are more than happy to answer any math specific question you may have about this problem. Mathway currently does not support tutoring in Chemistry. If this is what you were looking for, please contact support.

## Mathway | Algebra Problem Solver

Geometry studies points, lines, shapes, angles, and the relationships between them. We will consider some simple shapes, such as triangles and rectangles, and will discuss how to calculate some of their properties, how to solve a geometry problem. Before considering some more complicated figures, we must have an understanding of certain terms that are used throughout the study of geometry.

Several fundamental geometric concepts include points, lines, how to solve a geometry problem, and angles. A point is essentially a location-it is often represented using a small dot, and it represents a location in space and has no length, width, or depth. Several points are shown below. A line in geometry is has most of the same characteristics as it does in real life and in algebra.

A geometric line is how to solve a geometry problem, and it extends indefinitely in opposite directions. If two lines meet at a point, then they are said to intersect. An example of a line is shown below; note that the ends of the line have arrows that indicate the line continues indefinitely.

A finite portion of a line is called a line segment. Line segments have lengths that are finite limited numbers, unlike lines, whose lengths are infinite unlimited, how to solve a geometry problem. A line segment is shown below; the ends of the line segment are shown as points. A ray is a portion of a line with only one end point, as shown below. Its length is still infinite, but it has one identifiable end. When two lines, line segments, rays, or some combination thereof intersect, they form an angle.

An example of an angle is shown below. Some example angle measures are shown below. Using these basic geometric terms and figures, we can now turn to studying some more complicated figures. A rectangle is a specific kind of closed geometric figure with four sides; an example of a rectangle is shown below. Rectangles can be described by their two dimensions: a length which we can call l and a width which we can call w. One characteristic of rectangles that we can readily calculate is its perimeter, which is the sum of the lengths of all the sides.

The perimeter P is the following:. We can simplify this expression by converting addition of like terms into multiplication:. For instance, consider the rectangle below. Because opposite sides are equal in length, the rectangle has two sides of length 6 units and two sides of length 3 units. The perimeter is thus the following:. The perimeter is 18 units. Note that the "unit" can be inches, feet, meters, or any other type of length measurement. If the unit is specified, use that particular unit; otherwise, the generic term "units" is sufficient.

Practice Problem : Calculate the perimeter of the rectangle below. All measurements are in feet. Solution : Recall that opposite sides of a rectangle are equal in length. Thus, this rectangle has two sides of length 10 feet and two sides of length 2 feet. The perimeter P is then the following:. Alternatively, we could have simply used the formula we derived above. Practice Problem : A certain rectangle has a perimeter of 50 meters and a length of 14 meters. What is its width?

Solution : We can solve this problem by carefully considering the information presented and by applying what we know about solving equations. We know, first of all, that the perimeter P of a rectangle obeys the following formula, where l is the length and w is the width. The problem statement tells us what the perimeter P is, as well as what the length l is. Let's enter these values into the equation above and then simplify the result as best we can.

To find the width of the rectangle, we need only solve for w using the same approach that we used when solving linear equations. Thus, the width of the rectangle is 11 meters. Let's check this result to be sure it works. We know from the problem statement that the length of the rectangle how to solve a geometry problem 14 meters. We can also calculate the area of a rectangle, how to solve a geometry problem, which how to solve a geometry problem a measure of how much space it occupies.

Let's consider a rectangle with a width of 4 units and a length of 2 units, how to solve a geometry problem. Let's divide each side into segments with a length of 1, as below. Now, using these divisions, we'll draw a grid that divides up the rectangle.

Note that the grid is divided into smaller regions whose each side has a length of 1 unit. Each of these smaller regions is a square a rectangle whose length and width are equal with sides of length 1.

We define one of these regions as 1 square unit-a square whose dimensions length and width are both 1 unit. Now, notice that the rectangle has a total of 8 square units, which are divided into two rows of four or four rows of two depending on how you view the diagram.

But calculating the number of objects square units, in this case in rows and columns can be done by multiplication: notice that the number of square units in the rectangle is simply the product of the length and the width. Thus, the area A of a rectangle with length l and width w is the product of l and w:.

This formula applies to any rectangle, regardless of the lengths of its sides. That is, the lengths can be positive integers, fractions, decimals, rational numbers, or irrational numbers. For instance, let's say we had a rectangle with a length of 5 inches and a width of 3 inches, as shown below. Our goal is to calculate how many squares having sides of length 1 inch can fit into this rectangle--the result is the total area of the rectangle.

Placing the squares edge to edge, we can fit five of them across the rectangle, and we can fit three down the rectangle. We can see from the diagram that we can fit 15 one-square-inch squares into the rectangle--thus, the rectangle has an area of 15 square inches.

Of course, this is what the formula indicates as well:. Practice Problem : Calculate the area of a rectangle with width 32 inches and length inch. Solution : The area formula for a rectangle applies regardless of the numbers used as long as they are positive, how to solve a geometry problem course. Thus, let's simply use how to solve a geometry problem formula for the area A:. We can also consider some characteristics of another common geometric figure: the triangle.

A how to solve a geometry problem is a closed geometric figure with three sides; examples of triangles are shown below. The perimeter of a triangle is calculated in much the same way as the perimeter of a rectangle: simply add the lengths of the sides of the triangle in this case, the figure has only three sides, and these sides can how to solve a geometry problem be different lengths. Calculating the area, however, is somewhat more difficult. For rectangles, we were able to see the area as simply rows and columns of squares.

Because of the shape of a triangle, we cannot neatly fit the squares into it. We must take a slightly different approach to finding the area of a triangle. Let's consider a generic triangle shown below; this triangle has no particularly special properties. Now, let's identify two characteristic dimensions of this or any triangle: the length of the base which we'll call b and the height which we'll call h. The base is simply the length of the side "on the ground," or at the bottom of the figure.

The height is then the maximum distance that the triangle reaches "above the ground. The area of the triangle is A. If we had two such triangles of exactly the same shape, the total area of the two triangles would then be 2 A. Let's use this fact to try to construct a more familiar figure. First, we'll cut one of the triangles along its height.

We do not know what x and y are, but because we cut the triangle, how to solve a geometry problem, we know that these two bases must sum to the base of the original triangle.

Now, let's try rearranging the pieces to make a rectangle! Let's now consider the characteristics of this new figure remember, it has an area 2 A, where A is the area of the original triangle. But we know how to calculate the area of a rectangle: it is simply the product of the length and width b and h in this case. This total area, however, is twice the area of the original triangle.

Thus, the product of b and h is equal to 2 A. From our study of linear equations, we learned how to solve for a particular variable. In this case, we can isolate A by multiplying both sides of the expression by. Thus, we have derived a formula for the area of a triangle. This derivation, although not shown in its full mathematical rigor, produces the correct area formula for all triangles, not just the one shown above.

The process of calculating the height h of a triangle can be somewhat complicated, but how to solve a geometry problem you know the base and height, you are now able to calculate the area of the triangle. Solution : If we rotate the triangle so that the foot side is on the bottom, we see that the dashed line segment represents the height of the triangle. We can then calculate the area of the triangle using the formula we derived in the lesson.

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A line in geometry is has most of the same characteristics as it does in real life (and in algebra). A geometric line is straight, and it extends indefinitely in opposite directions. If two lines meet at a point, then they are said to intersect. An example of a line is shown below; note that the ends of the line have arrows that indicate the line continues indefinitely. Is there a different problem you would like further assistance with? Mathway currently does not support this subject. We are more than happy to answer any math specific question you may have about this problem. Mathway currently does not support tutoring in Chemistry. If this is what you were looking for, please contact support. "Geometry" is advanced application for solving geometry problems. There is a complete solution delivered for each issue to satisfy every teacher or student. The application solves every algebraic problem including those with: fractions - roots - powers you can also use parentheses, decimal numbers and Pi number. This application is able to do calculation on the following figures: square /5(K).