Evaluate each determinant. ∣ x 4 x 2 x 8 x ∣ \begin{vmatrix}x & 4x\\ 2x & 8x\end{vmatrix}

Hello, everyone. We have been asked to find the determinant of the two by two matrix given below. In this matrix, our top row is 42 X 14 X. Our second row is three X X. Our answer choices are a 84 X squared B negative 42 X squared C zero D negative 84 X squared. We're called to find the determinant of a two by two matrix. We multiply diagonally starting with the top left corner. So we are gonna multiply 42 X by X and then we subtract the product from the other diagonal. So we're gonna subtract 14 X multiplied by three X. So doing the multiplication out 42 X multiplied by X is 42 X squared minus X multiplied by three X is also 42 X squared and 42 X squared minus 42 X squared is zero. So it works out that our determinant here has a value of zero which is answer choice C have a nice day.

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1:26 minutes

Problem 37

Textbook Question

Evaluate each determinant.
$∣ \begin{matrix} x & 4 x \\ 2 x & 8 x \end{matrix} ∣$

Verified step by step guidance

Identify the size of the matrix for which you need to evaluate the determinant (e.g., 2x2, 3x3, etc.).

For a 2x2 matrix $\begin{bmatrix} a & b \\ c & d \end{bmatrix}$, use the formula for the determinant: $\det = ad - bc$.

For a 3x3 matrix $\begin{bmatrix} a & b & c \\ d & e & f \\ g & h & i \end{bmatrix}$, apply the rule of Sarrus or cofactor expansion to find the determinant.

If using cofactor expansion for a 3x3 matrix, select a row or column, then calculate the sum of each element multiplied by its cofactor: $\det = a(ei - fh) - b(di - fg) + c(dh - eg)$.

After setting up the determinant expression, simplify the arithmetic step-by-step to find the determinant value.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Determinant of a Matrix

The determinant is a scalar value computed from a square matrix that provides important properties about the matrix, such as invertibility. It is calculated using specific rules depending on the matrix size, like the product of diagonal elements for 2x2 matrices or expansion by minors for larger matrices.

Properties of Determinants

Determinants have properties that simplify calculations, such as the determinant of a product equals the product of determinants, and swapping two rows changes the sign of the determinant. Understanding these properties helps in efficiently evaluating determinants without full expansion.

Methods for Evaluating Determinants

Common methods include direct formula application for small matrices, cofactor expansion for larger matrices, and row reduction to triangular form. Choosing the right method depends on matrix size and complexity, aiding in accurate and efficient determinant evaluation.

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Related Practice

Textbook Question

In Exercises 31–36, use the alternative method for evaluating third-order determinants on here to evaluate each determinant. $\begin{vmatrix}\)1 & 5 & 6 \\1 & 4 & 5 \\1 & 9 & 10\(\end{vmatrix}$

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Textbook Question

In Exercises 31–36, use the alternative method for evaluating third-order determinants on here to evaluate each determinant. $\begin{vmatrix}\)0.5 & 7 & 5 \\0.5 & 3 & 9 \\0.5 & 1 & 3\(\end{vmatrix}$