Difference between revisions of "1985 AHSME Problems/Problem 16"

Revision as of 19:34, 9 February 2012

Problem

If $A=20^\circ$ and $B=25^\circ$ , then the value of $(1+\tan A)(1+\tan B)$ is

$\mathrm{(A)\ } \sqrt{3} \qquad \mathrm{(B) \ }2 \qquad \mathrm{(C) \ } 1+\sqrt{2} \qquad \mathrm{(D) \ } 2(\tan A+\tan B) \qquad \mathrm{(E) \ }\text{none of these}$

Solution

First, let's leave everything in variables and see if we can simplify $(1+\tan A)(1+\tan B)$ .

We can write everything in terms of sine and cosine to get $\left(\frac{\cos A}{\cos A}+\frac{\sin A}{\cos A}\right)\left(\frac{\cos B}{\cos B}+\frac{\sin B}{\cos B}\right)=\frac{(\sin A+\cos A)(\sin B+\cos B)}{\cos A\cos B}$ .

We can multiply out the numerator to get $\frac{\sin A\sin B+\cos A\cos B+\sin A\cos B+\sin B\cos A}{\cos A\cos B}$ .

It may seem at first that we've made everything more complicated, however, we can recognize the numerator from the angle sum formulas:

$\cos(A-B)=\sin A\sin B+\cos A\cos B$

$\sin(A+B)=\sin A\cos B+\sin B\cos A$

Therefore, our fraction is equal to $\frac{\cos(A-B)+\sin(A+B)}{\cos A\cos B}$ .

We can also use the product-to-sum formula

$\cos A\cos B=\frac{1}{2}(\cos(A-B)+\cos(A+B))$ to simplify the denominator:

$\frac{\cos(A-B)+\sin(A+B)}{\frac{1}{2}(\cos(A-B)+\cos(A+B))}$ .

But now we seem stuck. However, we can note that since $A+B=45^\circ$ , we have $\sin(A+B)=\cos(A+B)$ , so we get

$\frac{\cos(A-B)+\sin(A+B)}{\frac{1}{2}(\cos(A-B)+\sin(A+B))}$

$\frac{1}{\frac{1}{2}}$

$2, \boxed{\text{B}}$

Note that we only used the fact that $\sin(A+B)=\cos(A+B)$ , so we have in fact not just shown that $(1+\tan A)(1+\tan B)=2$ for $A=20^\circ$ and $B=25^\circ$ , but for all $A, B$ such that $A+B=45^\circ+n180^\circ$ , for integer $n$ .

Alternate Solution

We can see that $25^o+20^o=45^o$ . We also know that $\tan 45=1$ . First, let us expand $(1+\tan A)(1+\tan B)$ .

We get $1+\tan A+\tan B+\tan A\tan B$ .

Now, let us look at $\tan45=\tan(20+25)$ .

By the $\tan$ sum formula, we know that $\tan45=\dfrac{\text{tan A}+\text{tan B}}{1- \text{tan A} \text{tan B}}$

Then, since $\tan 45=1$ , we can see that $\tan A+\tan B=1-\tan A\tan B$

Then $1=\tan A+\tan B+\tan A\tan B$

Thus, the sum become $1+1=2$ and the answer is $\fbox{\text{(B)}}$

@@ Line 45: / Line 45: @@
 Note that we only used the fact that <math> \sin(A+B)=\cos(A+B) </math>, so we have in fact not just shown that <math> (1+\tan A)(1+\tan B)=2 </math> for <math> A=20^\circ </math> and <math> B=25^\circ </math>, but for all <math> A, B </math> such that <math> A+B=45^\circ+n180^\circ </math>, for integer <math> n </math>.
+==Alternate Solution ==
+We can see that <math>25^o+20^o=45^o</math>. We also know that <math>\tan 45=1</math>. First, let us expand <math>(1+\tan A)(1+\tan B)</math>.
+We get <math>1+\tan A+\tan B+\tan A\tan B</math>.
+Now, let us look at <math>\tan45=\tan(20+25)</math>.
+By the <math>\tan</math> sum formula, we know that <math>\tan45=\dfrac{\text{tan A}+\text{tan B}}{1- \text{tan A} \text{tan B}}</math>
+Then, since <math>\tan 45=1</math>, we can see that <math>\tan A+\tan B=1-\tan A\tan B</math>
+Then <math>1=\tan A+\tan B+\tan A\tan B</math>
+Thus, the sum become <math>1+1=2</math> and the answer is <math>\fbox{\text{(B)}}</math>
 ==See Also==
 {{AHSME box|year=1985|num-b=15|num-a=17}}

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Difference between revisions of "1985 AHSME Problems/Problem 16"

Revision as of 19:34, 9 February 2012

Contents

Problem

Solution

Alternate Solution

See Also