Answer:
(x+3)(x+3)(x-4)
Step-by-step explanation:
I find a graphing calculator immensely helpful for factoring problems. Of course the constant in the binomial factor is the opposite of the x-intercept value. The x-intercept at -3 just touches the axis, so has even multiplicity. It will give rise to a repeated factor.
The x-intercepts of -3, -3 and +4 mean the factorization is ...
f(x) = (x +3)(x +3)(x -4)
Answer and Step-by-step explanation:
Since we have given that
1. m∠1 + m∠5 = 180° and m∠1 + m∠4=180° - Given
2. m∠1 + m∠5 = m∠1 + m∠4 - Substitution
3. m∠5 = m∠4 -
Subtraction property of equality
4. Ray YZ is parallel to Ray UV - If alternate interior angles equal, then line are ||
2. 4= 2², so neighboring perfect squares should look like 1² and 3²
1² 2² 3²
1 4 9
3. 16 = 4², so neighboring perfect squares are 3² and 5²
3² 4² 5²
9 16 25
4. 169 = 13²
12² 13² 14²
144 169 196
5. 9 = 3²
2² 3² 4²
4 9 16
6. 25 = 5²
4² 5² 6²
16 25 36
7. 49 = 7²
6² 7² 8²
36 49 64
Answer:
8/3
Step-by-step explanation:
The standard form of the equation is;
y = mx + c
Thus after rewriting the equation, you’d have:
-3y = -8x + 48
Divide both sides of the equation by the co- efficient of y, you’d get:
y = 8/3x - 16
Recall, the ‘m’ means the slope.
Thus, the slope of the equation is 8/3.
If 5 were added to the sum, it would be 4 times Maggies age.
Maggie is (31+5)/4 = 9 years old.
_____
Let m represent Maggie's age. Then her brother's age is 3m-5, and the sum of their ages is ...
31 = m + (3m -5)
36 = 4m . . . . . . . simplify and add 5
9 = m . . . . . . . . . divide by 4