A and B are two candidates in an election. A defeated B by 75 votes. Had 20% of the voters who voted for A had voted for B,the latter would have won by 19 votes. Find the number of votes polled in favor of A and B. Generate LaTex code for the solution wit

To find the number of votes polled in favor of candidates A and B, we can set up the problem using algebra. Let \( x \) be the number of votes for candidate A and \( y \) be the number of votes for candidate B. According to the problem, we have two key pieces of information: 1. A defeated B by 75 votes: \[ x - y = 75 \tag{1} \] 2. Had 20% of A's votes gone to B, then B would have won by 19 votes: \[ (x - 0.2x) - (y + 0.2x) = -19 \] This simplifies to: \[ 0.8x - y - 0.2x = -19 \] \[ 0.6x - y = -19 \tag{2} \] Now we have a system of equations: 1. \( x - y = 75 \) 2. \( 0.6x - y = -19 \) We can solve this system to find \( x \) and \( y \). ### Step 1: Solve for \( y \) from Equation (1) From equation (1): \[ y = x - 75 \tag{3} \] ### Step 2: Substitute (3) into (2) Now substitute (3) into (2): \[ 0.6x - (x - 75) = -19 \] ### Step 3: Simplify and Solve for \( x \) \[ 0.6x - x + 75 = -19 \] \[ -0.4x + 75 = -19 \] \[ -0.4x = -19 - 75 \] \[ -0.4x = -94 \] \[ x = \frac{94}{0.4} = 235 \] ### Step 4: Find \( y \) Now substitute \( x = 235 \) back into equation (3): \[ y = 235 - 75 = 160 \] Thus, the number of votes polled in favor of A and B are: - Votes for A: \( 235 \) - Votes for B: \( 160 \) The following LaTeX code can be used to display this solution: ```latex \documentclass{article} \usepackage{amsmath} \usepackage{amsfonts} \usepackage{amssymb} \begin{document} Let \( x \) be the number of votes for candidate A and \( y \) be the number of votes for candidate B. According to the problem, we have two key pieces of information: 1. A defeated B by 75 votes: \[ x - y = 75 \tag{1} \] 2. Had 20\% of A's votes gone to B, then B would have won by 19 votes: \[ (0.8x) - (y + 0.2x) = -19 \] This simplifies to: \[ 0.6x - y = -19 \tag{2} \] Now we have a system of equations: 1. \( x - y = 75 \) 2. \( 0.6x - y = -19 \) Now solving this system: \textbf{Step 1:} Solve for \( y \) from Equation (1): \[ y = x - 75 \tag{3} \] \textbf{Step 2:} Substitute (3) into (2): \[ 0.6x - (x - 75) = -19 \] \textbf{Step 3:} Simplify and Solve for \( x \): \[ 0.6x - x + 75 = -19 \] \[ -0.4x + 75 = -19 \] \[ -0.4x = -19 - 75 \] \[ -0.4x = -94 \] \[ x = \frac{94}{0.4} = 235 \] \textbf{Step 4:} Find \( y \): Substituting \( x = 235 \) back into equation (3): \[ y = 235 - 75 = 160 \] Thus, the number of votes polled in favor of A and B are: - Votes for A: \( 235 \) - Votes for B: \( 160 \) \end{document} ``` This code provides a complete solution using LaTeX for the given election problem. You can compile it in a LaTeX editor to see the formatted output.