Solving quadratic equations is a key skill for students in mathematics. This article will provide an overview of two different quadratic equations and how to solve them.

## Solving Quadratic Equations

Quadratic equations are equations that involve a variable raised to the power of two, such as x^2. In order to solve a quadratic equation, you must use a method known as the quadratic formula. This formula allows you to find the two solutions of the equation by substituting the values of the coefficients of the equation into the formula.

The two equations that will be examined in this article are 55. x^2 – 3x + 2 and 58. 2x^2 – 9x^2.

To solve the first equation, 55. x^2 – 3x + 2, you must first substitute the values of the coefficients into the quadratic formula. The coefficients are a = 1, b = -3, and c = 2. The solutions for this equation are x = 1 and x = 2.

To solve the second equation, 58. 2x^2 – 9x^2, you must again substitute the coefficients into the quadratic formula. The coefficients for this equation are a = 2, b = -9, and c = 0. The solutions for this equation are x = 0 and x = 4.5.

## Examining the Solutions

The solutions for both equations can be examined to determine if they are valid. For the first equation, 55. x^2 – 3x + 2, the solutions of x = 1 and x = 2 are valid solutions. This can be verified by plugging the solutions into the equation and ensuring that the equation is true.

For the second equation, 58. 2x^2 – 9x^2, the solutions of x = 0 and x = 4.5 are also valid solutions. This can be verified by plugging the solutions into the equation and ensuring that the equation is true.

This article has provided an overview of two different quadratic equations and how to solve them. It has also examined the solutions for each equation to determine if they are valid. Solving quadratic equations is an important skill for students in mathematics and these examples are a great way to get started.

In mathematics, two algebraic expressions can provide insight into the properties of a linear equation. Today we’ll discuss two such expressions: 55. X ^ 2 – 3x + 2 and 58. 2x ^ 2 – 9x ^ 2.

The expression 55. X ^ 2 – 3x + 2 is a quadratic equation comprised of three terms: X ^ 2, – 3x, and + 2. The first term, X ^ 2, is a squared variable. The second term, – 3x, is a linear variable, with a coefficient of –3. Finally, the third term is a constant, with a value of +2. Together, this is an equation of the form ‘ax2 + bx + c = 0’.

The expression 58. 2x ^ 2 – 9x ^ 2 is a more complex equation, combining both squared and linear variables. This expression is composed of two terms: 2x ^ 2 and – 9x ^ 2. The first term, 2x ^ 2, is the same as the first term of the previous equation – a squared variable. The difference here is that it is multiplied by a coefficient of 2 rather than 1. The second term, – 9x ^ 2, is again a linear variable, but with a coefficient of -9 rather than -3.

Of course, these equations also represent two different linear equations with coefficients of different signs. In the first equation, the coefficient of the squared variable is positive, and the coefficient of the linear variable is negative. In the second equation, the coefficients of both the squared and linear variables are negative.

Understanding the properties of these two equations can be an important first step towards understanding the patterns and methods of linear equations in general. With practice, an individual can use the knowledge they have gained to solve many different types of algebraic equations.