Respuesta :
Answer:
Ans. He must use 2,987.76 pounds of alloy X (Cu=69%) and 2,365.24 pounds of alloy Y (26%=Cu)
Explanation:
Hi, let´s call alloy X the alloy that contains 69% of Cu and alloy Y the one containing 26% of Cu. Since he needs to produce 5,353 pounds of alloy, the first equation that we need to use is the following.
[tex]X+Y=5,353[/tex]
Now, we need this 5,353 pounds of the new alloy to be 50% Cu, therefore, we have to use a portion of alloy X and alloy Y. This is as follows.
[tex]0.69X+0.26Y=0.5(X+Y)[/tex]
And we have already established that X+Y is equal to 5,353, therefore this equation should look like this.
[tex]0.69X+0.26Y=5,353*0.5[/tex]
[tex]0.69X+0.26Y=2,676.5[/tex]
And we solve for X this equation, this as follows.
[tex]0.69X=2,676.5-0.26Y[/tex]
[tex]X=\frac{2,676.5-0.26Y}{0.69}[/tex]
[tex]X=3,878.98-0.3768Y[/tex]
Now, we use this result and substitute this for X in the first equation like this.
[tex]3,878.98-0.3768Y+Y=5,353[/tex]
and then, we solve for Y
[tex]0.6232Y=5,353-3,878.98[/tex]
[tex]Y=\frac{1,474.02}{0.6232} =2,365.24[/tex]
So, he needs to use 2,365.24 pounds of alloy that contains 26% of Cu, this means that the rest (2,987.76 pounds) must come from the alloy that contains 69% of Cu.
We can check this result by finding the overall Cu obtained by this amounts of alloy, that is
[tex]Coppper FromX=2,987.76*0.69=2,061.55[/tex]
[tex]Coppper FromY=2,365.24*0.26=614.96[/tex]
That adds up to 2,676.51 pounds of pure Cu, and since the total weight of the new alloy is 5,353, this amount of copper makes up for:
[tex]PercentCu=\frac{2,676.51}{5,353} =0.5[/tex]
50% of the total weight.
Best of luck.
