Calculus Examples

Solve the Differential Equation (dy)/(dx)=6x square root of 9-y^2
Step 1
Separate the variables.
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Step 1.1
Multiply both sides by .
Step 1.2
Simplify.
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Step 1.2.1
Rewrite using the commutative property of multiplication.
Step 1.2.2
Simplify the denominator.
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Step 1.2.2.1
Rewrite as .
Step 1.2.2.2
Since both terms are perfect squares, factor using the difference of squares formula, where and .
Step 1.2.3
Multiply by .
Step 1.2.4
Combine and simplify the denominator.
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Step 1.2.4.1
Multiply by .
Step 1.2.4.2
Raise to the power of .
Step 1.2.4.3
Raise to the power of .
Step 1.2.4.4
Use the power rule to combine exponents.
Step 1.2.4.5
Add and .
Step 1.2.4.6
Rewrite as .
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Step 1.2.4.6.1
Use to rewrite as .
Step 1.2.4.6.2
Apply the power rule and multiply exponents, .
Step 1.2.4.6.3
Combine and .
Step 1.2.4.6.4
Cancel the common factor of .
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Step 1.2.4.6.4.1
Cancel the common factor.
Step 1.2.4.6.4.2
Rewrite the expression.
Step 1.2.4.6.5
Simplify.
Step 1.2.5
Combine and .
Step 1.2.6
Rewrite as .
Step 1.2.7
Since both terms are perfect squares, factor using the difference of squares formula, where and .
Step 1.2.8
Multiply .
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Step 1.2.8.1
Combine and .
Step 1.2.8.2
Combine and .
Step 1.2.8.3
Raise to the power of .
Step 1.2.8.4
Raise to the power of .
Step 1.2.8.5
Use the power rule to combine exponents.
Step 1.2.8.6
Add and .
Step 1.2.9
Simplify the numerator.
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Step 1.2.9.1
Rewrite as .
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Step 1.2.9.1.1
Use to rewrite as .
Step 1.2.9.1.2
Apply the power rule and multiply exponents, .
Step 1.2.9.1.3
Combine and .
Step 1.2.9.1.4
Cancel the common factor of .
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Step 1.2.9.1.4.1
Cancel the common factor.
Step 1.2.9.1.4.2
Rewrite the expression.
Step 1.2.9.1.5
Simplify.
Step 1.2.9.2
Expand using the FOIL Method.
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Step 1.2.9.2.1
Apply the distributive property.
Step 1.2.9.2.2
Apply the distributive property.
Step 1.2.9.2.3
Apply the distributive property.
Step 1.2.9.3
Simplify and combine like terms.
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Step 1.2.9.3.1
Simplify each term.
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Step 1.2.9.3.1.1
Multiply by .
Step 1.2.9.3.1.2
Multiply by .
Step 1.2.9.3.1.3
Move to the left of .
Step 1.2.9.3.1.4
Rewrite using the commutative property of multiplication.
Step 1.2.9.3.1.5
Multiply by by adding the exponents.
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Step 1.2.9.3.1.5.1
Move .
Step 1.2.9.3.1.5.2
Multiply by .
Step 1.2.9.3.2
Add and .
Step 1.2.9.3.3
Add and .
Step 1.2.9.4
Rewrite as .
Step 1.2.9.5
Since both terms are perfect squares, factor using the difference of squares formula, where and .
Step 1.2.10
Cancel the common factor of .
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Step 1.2.10.1
Cancel the common factor.
Step 1.2.10.2
Rewrite the expression.
Step 1.2.11
Cancel the common factor of .
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Step 1.2.11.1
Cancel the common factor.
Step 1.2.11.2
Divide by .
Step 1.2.12
Move to the left of .
Step 1.3
Rewrite the equation.
Step 2
Integrate both sides.
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Step 2.1
Set up an integral on each side.
Step 2.2
Integrate the left side.
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Step 2.2.1
Rewrite as .
Step 2.2.2
The integral of with respect to is
Step 2.2.3
Rewrite as .
Step 2.3
Integrate the right side.
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Step 2.3.1
Since is constant with respect to , move out of the integral.
Step 2.3.2
By the Power Rule, the integral of with respect to is .
Step 2.3.3
Simplify the answer.
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Step 2.3.3.1
Rewrite as .
Step 2.3.3.2
Simplify.
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Step 2.3.3.2.1
Combine and .
Step 2.3.3.2.2
Cancel the common factor of and .
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Step 2.3.3.2.2.1
Factor out of .
Step 2.3.3.2.2.2
Cancel the common factors.
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Step 2.3.3.2.2.2.1
Factor out of .
Step 2.3.3.2.2.2.2
Cancel the common factor.
Step 2.3.3.2.2.2.3
Rewrite the expression.
Step 2.3.3.2.2.2.4
Divide by .
Step 2.4
Group the constant of integration on the right side as .
Step 3
Solve for .
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Step 3.1
Take the inverse arcsine of both sides of the equation to extract from inside the arcsine.
Step 3.2
Simplify the left side.
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Step 3.2.1
Combine and .
Step 3.3
Multiply both sides of the equation by .
Step 3.4
Simplify the left side.
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Step 3.4.1
Cancel the common factor of .
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Step 3.4.1.1
Cancel the common factor.
Step 3.4.1.2
Rewrite the expression.