(1/5× - 1/4y) (5ײ - 4y²)
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Answer:
\frac{\left(4x-5y\right)\left(5x^{2}-4y^{2}\right)}{20}
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12/4/2014
How do you solve this system of non-linear equations?
x² + y² = 25
2x + 4y = -10
When solving the system of those two equations, you are finding the point(s) of intersection of a circle and a straight line.
x² + y² = 25 {a circle}
2x + 4y = -10 {a straight line}
Isolate a variable on the linear equation:
2x + 4y = -10 {the second equation}
2x = -4y - 10 {subtracted 4y from each side}
x = -2y - 5 {divided each side by 2}
Substitute the value of that variable into the non-linear equation:
x² + y² = 25 {the first equation}
(-2y - 5)² + y² = 25 {substituted (-2y - 5) , in for x, into top equation}
(-2y - 5)(-2y - 5) + y² = 25 {when squaring a binomial, multiply it by itself}
4y² + 20y + 25 + y² = 25 {used foil method}
5y² + 20y + 25 = 25 {combined like terms}
5y² + 20y = 0 {subtracted 25 from each side}
5y(y + 4) = 0 {factored out the common factor, 5y}
5y = 0 or y + 4 = 0 {set each factor equal to 0}
y = 0 or y = -4 {solved each equation}
x = -2y - 5 {the re-arranged second equation}
If y = 0:
x = -2(0) - 5 {substituted 0 for y}
x = 0 - 5 {multiplied}
x = -5 {subtracted}
(-5,0) is a solution {a point of intersection of the line and circle}
x = -2y - 5 {the re-arranged second equation}
If y = -4:
x = -2(-4) - 5 {substituted -4 for y}
x = 8 - 5 {multiplied}
x = 3 {subtracted}
(3,-4) is a solution {a point of intersection of the line and circle}
How do you solve this system of non-linear equations?
x² + y² = 25
2x + 4y = -10
When solving the system of those two equations, you are finding the point(s) of intersection of a circle and a straight line.
x² + y² = 25 {a circle}
2x + 4y = -10 {a straight line}
Isolate a variable on the linear equation:
2x + 4y = -10 {the second equation}
2x = -4y - 10 {subtracted 4y from each side}
x = -2y - 5 {divided each side by 2}
Substitute the value of that variable into the non-linear equation:
x² + y² = 25 {the first equation}
(-2y - 5)² + y² = 25 {substituted (-2y - 5) , in for x, into top equation}
(-2y - 5)(-2y - 5) + y² = 25 {when squaring a binomial, multiply it by itself}
4y² + 20y + 25 + y² = 25 {used foil method}
5y² + 20y + 25 = 25 {combined like terms}
5y² + 20y = 0 {subtracted 25 from each side}
5y(y + 4) = 0 {factored out the common factor, 5y}
5y = 0 or y + 4 = 0 {set each factor equal to 0}
y = 0 or y = -4 {solved each equation}
x = -2y - 5 {the re-arranged second equation}
If y = 0:
x = -2(0) - 5 {substituted 0 for y}
x = 0 - 5 {multiplied}
x = -5 {subtracted}
(-5,0) is a solution {a point of intersection of the line and circle}
x = -2y - 5 {the re-arranged second equation}
If y = -4:
x = -2(-4) - 5 {substituted -4 for y}
x = 8 - 5 {multiplied}
x = 3 {subtracted}
(3,-4) is a solution {a point of intersection of the line and circle}
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