Linear and quadratic systems — Basic example | Math | SAT | Khan Academy

Khan Academy SAT
21 Jun 201904:49

Summary

TLDRThe teacher guides students through solving a system of equations, where one equation is linear and the other is nonlinear. By using substitution, the teacher demonstrates how to solve for the variable Y, leading to a quadratic equation that can be factored. The solution yields Y-values of 5 and -3. The teacher then verifies these solutions by substituting them back into the original equations and matching them with the provided answer choices, emphasizing a strategic approach to solving under time pressure.

Takeaways

  • 📚 The script discusses solving a system of equations where the first equation is linear and the second is nonlinear due to the presence of a squared term in Y.
  • 🔍 The teacher suggests using substitution to solve the system, starting with the linear equation to express X in terms of Y.
  • 🔄 The substitution involves replacing X in the nonlinear equation with the expression derived from the linear equation, which is Y squared minus nine.
  • 🧩 After substitution, the teacher rearranges the equation to isolate Y, resulting in a quadratic equation Y squared minus 2Y minus 15 equals zero.
  • ➖ The teacher advises subtracting 2Y and six from both sides to simplify the equation and prepare it for factoring.
  • 🔢 The quadratic is factored by finding two numbers that multiply to -15 and add up to -2, which are -5 and 3.
  • 📝 The factored form of the equation is (Y - 5)(Y + 3) = 0, indicating that the solutions for Y are 5 and -3.
  • 🎯 The teacher emphasizes that both Y = 5 and Y = -3 are solutions to the system, as they satisfy the quadratic equation.
  • 🔄 To find the corresponding X values, the teacher suggests substituting the Y values back into the original equations.
  • 📌 The script clarifies that the solutions are pairs of (X, Y), not just individual values, and that the correct solutions are when Y = 5, X = 16, and when Y = -3, X = 0.
  • 🕵️‍♂️ The teacher also points out a common mistake where one might confuse the coordinates, emphasizing the importance of identifying the correct (X, Y) pairs.
  • 🔄 The final step involves verifying the solutions by substituting the Y values back into the linear equation to ensure the X values are correct.

Q & A

  • What type of system of equations is discussed in the script?

    -The script discusses a system of equations that includes a linear equation and a nonlinear one, specifically with a quadratic term in the second equation.

  • What is the first step suggested to solve the system of equations?

    -The first step suggested is to use substitution, where the expression for X from the first equation is substituted into the second equation.

  • What is the expression for X in the first equation?

    -The expression for X in the first equation is 2y + 6.

  • How is the second equation transformed after substituting the expression for X?

    -After substituting, the second equation becomes a quadratic equation: y^2 - 2y - 15 = 0.

  • What method is used to solve the quadratic equation y^2 - 2y - 15 = 0?

    -The method used to solve the quadratic equation is factoring.

  • What are the two numbers that factor the quadratic expression y^2 - 2y - 15?

    -The two numbers that factor the quadratic expression are -5 and 3.

  • What are the solutions for Y from the factored equation?

    -The solutions for Y are 5 and -3.

  • How can you find the corresponding X values for the given Y values?

    -You can find the corresponding X values by substituting the Y values back into the first equation (2y + 6).

  • What are the X values when Y equals 5 and when Y equals -3?

    -When Y equals 5, X equals 16 (2*5 + 6). When Y equals -3, X equals 0 (2*(-3) + 6).

  • Why might the script suggest reviewing factoring quadratic expressions on Khan Academy if you find it confusing?

    -The script suggests reviewing on Khan Academy to gain a better understanding of the factoring process and to clarify any confusion about the method used to solve the quadratic equation.

  • What is the final step to ensure the correctness of the solutions found?

    -The final step is to substitute the found Y values and their corresponding X values back into the original system of equations to verify that they satisfy both equations.

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関連タグ
System of EquationsLinear AlgebraNonlinear EquationsMathematicsSubstitution MethodQuadratic FactoringEducational ContentProblem SolvingAlgebraic TechniquesKahn Academy
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