1955 AHSME Problems/Problem 50

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Solution

Let $V_A, V_B, V_C$ be $A, B, C$'s velocity, respectively. We want to pass $B$ before we collide with $C$. Since $A$ and $B$ are going in the same direction and $V_A>V_B$, $A$ will pass $B$ in $\frac{30\mathrm{ft}}{V_A-V_B}$ time. Since $A$ and $C$ are going in opposite directions, their velocity is given by $V_A+V_C$, so the amount of time before $A$ will collide with $C$ is given by $\frac{210\mathrm{ft}}{V_A+V_C}$. We want to pass $B$ before we collide with $C$, so $V_A$ must satisfy the inequality $\frac{30\mathrm{ft}}{V_A-V_B}<\frac{210\mathrm{ft}}{V_A+V_C}$. We can eliminate all the units, simplifying the inequality to $\frac{1}{V_A-V_B} < \frac{7}{V_A+V_C}$. Solving this and substituting our known values of $V_B$ and $V_C$ yields $330<6V_A$, so $A$ must increase his speed by $\boxed{\textbf{(C) \ } 5 }$ miles per hour.

~anduran