Implicit Differentiation of y*sin(x^2) = x*sin(y^2)
- Thread starter Prim3
- Start date
Re: Implicit Differentiation
Well in my opinion:
We can use the product rule and get:
x * dy/dx (sin(x^2)) + (sin(x^2)) * dy/dx (x)
Then we get:
x * dy/dx (sin(x^2)) + (sin(x^2))
Chain rule then, so:
x * cos(x^2) * dy/dx (x^2) + (sin(x^2))
x * cos(x^2) * (2x) + (sin(x^2))
2cos(x^2)(x^2) + (sin(x^2))
Correct?
Thanks.
Well in my opinion:
We can use the product rule and get:
x * dy/dx (sin(x^2)) + (sin(x^2)) * dy/dx (x)
Then we get:
x * dy/dx (sin(x^2)) + (sin(x^2))
Chain rule then, so:
x * cos(x^2) * dy/dx (x^2) + (sin(x^2))
x * cos(x^2) * (2x) + (sin(x^2))
2cos(x^2)(x^2) + (sin(x^2))
Correct?
Thanks.
D
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Re: Implicit Differentiation
Prim3 said:
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- Feb 4, 2004
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Yes. Now do the exact same process, but with a "y" in place of the "x" in front of the sine. Since (dy/dx)(y) is just dy/dx, you'll end up with a "dy/dx" where here you'd had a "1".Prim3 said:
Then follow the same process on the right-hand side of the equation.
Then solve for dy/dx, and you're done!
Eliz.