A ladder is resting against a wall. The top of the ladder touches the wall at a height of 15 feet and the length of the ladder is one foot more than twice the distance from the wall. Find the distance from the wall to the bottom of the ladder. (Hint: Use the Pythagorean Theorem.)
I guess the wall and the ladder form a right triangle.
yes, so solve
15^2 + x^2 = (2x+1)^2
why did you not get a quadratic?
15^2 + x^2 = (2x+1)^2
225 + x^2 = 4x^2 + 4x + 1
3x^2 + 4x - 224 = 0
see?
since you are studying quadratics I will let you finish it. (hint: 8 is a nice number)
? Just move all values to one side and leave the other side to zero and there's your quadratic formula.
Let x be the distance from the wall to the bottom of the ladder
Let 2x+1 be the length of the ladder
15^2 + x^2 = (2x+1)^2
4x^2 + 4x + 1 = 15^2 + x^2 I just expanded and switched the sides
3x^2 + 4x - 224 = 0
x^2 + 4x - 672 = 0 <-- bridge method is not in the NYC curriculum but I don't know about yours
(x+28)(x-24) = 0
(3x+28)(3x-24) = 0
(3x+28)(x-8) = 0
x = 8, -28/3(rej because its silly for the distance to be negative)