Peta attempted to solve the following equation. explain peta's error. x (x - 5) = 20 x = 20 and x - 5 = 20 x = 20 and x = 25
Peta Attempted To Solve The Following Equation. Explain Peta's Error. X (X - 5) = 20 X = 20 And X - 5 = 20 X = 20 And X = 25
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Peta Attempted To Solve The Following Equation. Explain Peta's Error. X (X - 5) = 20 X = 20 And X - 5 = 20 X = 20 And X = 25. So peta's work has shown here on this equation, but peta has made a pretty big error in solving it. However, this rule can only be applied when.
Scintillation properties of the CCIPx (x = 5, 20) flexible films from www.researchgate.net
So peta's work has shown here on this equation, but peta has made a pretty big error in solving it. Peta, when solving the given quadratic equation x (x − 5) = 20, x(x−5)=20, x (x − 5) = 20, was obviously guided by the zero product property. Peta attempted to solve the quadratic equation by setting each factor equal to 20, which.
The Correct Approach Involves Rearranging The Equation And Factoring To Find The Solutions,.
So peta's work has shown here on this equation, but peta has made a pretty big error in solving it. Petta was sort of thinking correctly in that you have to take each factor. Of the boxes that apply.
Peta Attempted To Solve The Following Equation.
Peta's error is in the second step of her solution. Peta can only use the zero product property when the product of. Peta, when solving the given quadratic equation x (x − 5) = 20, x(x−5)=20, x (x − 5) = 20, was obviously guided by the zero product property.
Peta's Error In Solving The Equation Is Due To A Misunderstanding Of The Properties Of Equations.
Peta attempted to solve the quadratic equation by setting each factor equal to 20, which. However, this rule can only be applied when. Peta incorrectly solved the equation x (x − 5) = 20 by improperly isolating factors.
