Problem 41 In \(\triangle A B C, A B=\sqrt{... [FREE SOLUTION]

Chapter 3: Problem 41

In \(\triangle A B C, A B=\sqrt{7 x+5, B C}=\sqrt{5 x+15},\) and \(A C=\sqrt{2 x}\) a. If \(A B=B C,\) find the length of each side of the triangle. b. Express the perimeter of the triangle in simplest radical form.

Short Answer

Expert verified

Each side is \(AB = BC = 2\sqrt{10}\) and \(AC = \sqrt{10}\). The perimeter is \(5\sqrt{10}\).

Step by step solution

Equate the Given Sides

Given that \( AB = BC \), we equate the expressions for \( AB \) and \( BC \):\[\sqrt{7x+5} = \sqrt{5x+15}\]. We need to solve this equation to find the value of \(x\).

Remove the Square Roots

Square both sides of the equation to eliminate the square roots:\[7x + 5 = 5x + 15\].

Solve for \( x \)

Subtract \(5x\) from both sides to get:\[2x = 10\]. Then, divide both sides by 2 to find \(x\):\[x = 5\].

Find the Length of Each Side

Substitute \(x = 5\) back into the expressions for the sides of the triangle. For \( AB \) and \( BC \):\[\sqrt{7(5)+5} = \sqrt{35+5} = \sqrt{40}\].\[\sqrt{5(5)+15} = \sqrt{25+15} = \sqrt{40}\].\[AB = BC = \sqrt{40}\]. For \( AC \), substitute as follows:\[\sqrt{2(5)} = \sqrt{10}\]. Thus, \(AB = BC = \sqrt{40}\) and \(AC = \sqrt{10}\).

Simplify the Side Lengths

Simplify the radical expressions: \(\sqrt{40} = \sqrt{4 \cdot 10} = 2\sqrt{10}\). Thus, \(AB = BC = 2\sqrt{10}\). The length of \(AC\) remains \(\sqrt{10}\).

Calculate the Perimeter

The perimeter \(P\) of the triangle is the sum of its sides. Compute as follows: \(P = AB + BC + AC = 2\sqrt{10} + 2\sqrt{10} + \sqrt{10} = 5\sqrt{10}\).

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Key Concepts

These are the key concepts you need to understand to accurately answer the question.

Perimeter of a Triangle

The perimeter of a triangle is essentially the total distance around the triangle. It is calculated by adding together the lengths of its three sides. In mathematical terms, if a triangle has sides labeled as \( AB \), \( BC \), and \( AC \), then its perimeter \( P \) is the expression:\[ P = AB + BC + AC \].
For example, if you know the side lengths to be \( 2\sqrt{10} \), \( 2\sqrt{10} \), and \( \sqrt{10} \), you simply add them up. Here it would be \( 2\sqrt{10} + 2\sqrt{10} + \sqrt{10} = 5\sqrt{10} \).
This expresses how knowing the side lengths in simplest radical form can make calculations straightforward.

Solving Radical Equations

Radical equations are equations where the variable is within a radical, such as a square root. Solving them typically requires removing the radical sign by squaring both sides of the equation. Here鈥檚 how it works:

If you have an equation like \( \sqrt{7x+5} = \sqrt{5x+15} \), the first step is to square both sides.
This will eliminate the square roots, resulting in the equation \( 7x + 5 = 5x + 15 \).
From here, solve for \( x \) by isolating the variable. Subtract \( 5x \) from both sides, yielding \( 2x = 10 \).
Finally, dividing both sides by \( 2 \) gives \( x = 5 \).

Solving radical equations often involves these types of steps: squaring to remove radicals and finding the value of \( x \). This method is crucial in problems where sides of a triangle are given in radical form.

Simplifying Radical Expressions

Simplifying radical expressions is crucial for making calculations easier and more interpretable. A radical expression can often be rearranged into a simpler form.
To illustrate, consider the expression \( \sqrt{40} \). Simplification involves finding a factor of \( 40 \) that is a perfect square. This can be written as \( \sqrt{4 \cdot 10} \). Since \( 4 \) is a perfect square, it becomes \( 2 \) when simplified, giving \( 2\sqrt{10} \).
Here鈥檚 the step-by-step process:

Identify factors of the number inside the square root that include perfect squares.
Simplify the square root of the perfect square factor. For instance, \( \sqrt{4} = 2 \).
Write the simplified expression as \( 2\sqrt{10} \).

By rephrasing radicals in such a manner, algebraic expressions become simpler and more manageable. This is particularly useful when calculating perimeters or when solving equations involving radicals.

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91影视

In \(\triangle A B C, A B=\sqrt{7 x+5, B C}=\sqrt{5 x+15},\) and \(A C=\sqrt{2 x}\) a. If \(A B=B C,\) find the length of each side of the triangle. b. Express the perimeter of the triangle in simplest radical form.

Short Answer

Step by step solution

Equate the Given Sides

Remove the Square Roots

Solve for \( x \)

Find the Length of Each Side

Simplify the Side Lengths

Calculate the Perimeter

Key Concepts

Perimeter of a Triangle

Solving Radical Equations

Simplifying Radical Expressions

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