Consider the integral $\int_{0}^{1} \int_{12 x}^{12} f(x, y) d y d x$. Sketch the region of integration and change the order of integration.
\[
\begin{array}{l}
\int_{a}^{b} \int_{g_{1}(y)}^{g_{2}(y)} f(x, y) d x d y \\
a=\square b=\square \\
g_{1}(y)=\square g_{2}(y)=\square
\end{array}
\]
Answer
Final Answer: The new limits of integration are: \(\int_{0}^{12} \int_{0}^{y/12} f(x, y) dx dy\), where a=0, b=12, \(g_{1}(y)=0\), \(g_{2}(y)=y/12\).
Step 1 :Consider the integral \(\int_{0}^{1} \int_{12 x}^{12} f(x, y) d y d x\). The limits of y are from 12x to 12, which means y is always greater than or equal to 12x and less than or equal to 12. This gives us the lower and upper bounds for y.
Step 2 :For x, since y is always greater than or equal to 12x, we can express x as y/12. The lower limit for x is then 0 and the upper limit is y/12.
Step 3 :The new limits of integration are as follows: The lower limit for y is 0 and the upper limit is 12. The lower limit for x is 0 and the upper limit is y/12.
Step 4 :The new integral is then \(\int_{0}^{12} \int_{0}^{y/12} f(x, y) dx dy\).
Step 5 :Final Answer: The new limits of integration are: \(\int_{0}^{12} \int_{0}^{y/12} f(x, y) dx dy\), where a=0, b=12, \(g_{1}(y)=0\), \(g_{2}(y)=y/12\).
