a perpendicular bisector to is drawn through point c and extended to point d. arrange the pairs of points in order of the y-inte
rcepts of their corresponding perpendicular bisectors, starting with the smallest and ending with the largest. tiles a(-4, 5) and b(8, 9) a(2, 4) and b(-8, 6) a(5, 4) and b(7, 2) a(2, 9) and b(-4, 3) a(3, -2) and b(9, -12) a(4, 10) and b(8, 12)
Pair 1: slope = (9 - 5)/(8+4) = 1/3 midpoint = ((-4+8)/2, (5+9)/2) = (2, 7) perpendicular bisector passes through point (2, 7) with slope = -1/(1/3) = -3 giving the equation (y - 7)/(x - 2) = -3 or y - 7 = -3(x - 2) or y = -3x + 13 and y-intercept at y = 13.
Pair 2: slope = (6 - 4)/(-8-2) = -1/5 midpoint = ((2-8)/2, (4+6)/2) = (-3, 5) perpendicular
bisector passes through point (-3, 5) with slope = -1/(-1/5) = 5 giving
the equation (y - 5)/(x + 3) = 5 or y - 5 = 5(x + 3) or y = 5x + 20
and y-intercept at y = 20.
Pair 3: slope = (2 - 4)/(7 - 5) = -1 midpoint = ((5+7)/2, (4+2)/2) = (6, 3) perpendicular
bisector passes through point (6, 3) with slope = -1/(-1) = 1 giving
the equation (y - 3)/(x - 6) = 1 or y - 3 = (x - 6) or y = x - 3
and y-intercept at y = -3.
Pair 4: slope = (3 - 9)/(-4 - 2) = 1 midpoint = ((2-4)/2, (9+3)/2) = (-1, 6) perpendicular
bisector passes through point (-1, 6) with slope = -1(1) = -1 giving
the equation (y - 6)/(x + 1) = -1 or y - 6 = -1(x + 1) or y = -x + 5
and y-intercept at y = 5.
Pair 5: slope = (-12 + 2)/(9 - 3) = -5/3 midpoint = ((3+9)/2, (-2-12)/2) = (6, -7) perpendicular
bisector passes through point (6, -7) with slope = -1(-5/3) = 3/5 giving
the equation (y + 7)/(x - 6) = 3/5 or 5(y + 7) = 3(x - 6) or 5y = 3x - 53
and y-intercept at y = -10.6.
Pair 6: slope = (12 - 10)/(8 - 4) = 1/2 midpoint = ((4+8)/2, (10+12)/2) = (6, 11) perpendicular
bisector passes through point (6, 11) with slope = -1(1/2) = -2 giving
the equation (y - 11)/(x - 6) = -2 or y - 11 = -2(x - 6) or y = -2x + 23
and y-intercept at y = 23.
Arrangement in order of y-intercepts from smallest to largest a(3, -2) and b(9, -12) a(5, 4) and b(7, 2) a(2, 9) and b(-4, 3) a(-4, 5) and b(8, 9) a(2, 4) and b(-8, 6) a(4, 10) and b(8, 12)
For this problem, let x be the number of children and y for adults. Formulate the equations: 1st equation, x + y = 3,200 and 2nd equation 5x + 9y = 24,000. Re-arrange 1st equation into x = 3200 - y. Then, substitute into 2nd equation, 5(3,200-y) + 9y = 24,000. Then, solve for y. The 16,000 - 5y + 9y = 24000. Final answer is, y = 2000 adults went to watch the movie.
