Well, with the equation in that form, it may not be obvious how to graph it.
So let's change just the form a little bit... without changing the equation:
<u> y - 5 = 0</u>
Add 5 to each side: <em>y = 5 </em>
Look at that for awhile, and think about what it tells us.
It says that 'y' doesn't depend on 'x' at all. No matter how far left or right
you go on the graph, the y-value of <em>every point</em> is 5 .
The graph is a horizontal line across the graph. It cuts across the y-axis at
the point where y=5 , and it stays exactly at that same height everywhere.
The answer would be wx(yz) because the associative property says that you can change where the parenthesis are while keeping the same equation.
The equation is w(xy)z, but moving the parenthesis some where else will not change it, such as wx(yz).
Expression: 84 + 40
Here, Greatest Common Factor (GCF) of 84 & 40 is 4, so take it as a common factor:
= 4(21 + 10)
In short, Your Final Expression would be: 4(21 + 10)
Hope this helps!
Answer:
- MN = (21 -6√3)/37 ≈ 0.286694
- RK = (14√3 -12)/37 ≈ 0.331046
Step-by-step explanation:
In the attached figure, we have defined LM to be length x. Then the other lengths on side AC are ...
AM = LR = x/√3
RC = (2/√3)RK = (2/√3)(2/√3)x = 4/3x
Then the sum of lengths along AC is ...
AC = AM +ML +LR +RC
1 = x(1/√3 +1 +1/√3 +4/3) = x(7/3 +2/√3) = x(7√3 +6)/(3√3)
Then the value of x is ...
Answer:
slope is -3
y-intercept is 3
Step-by-step explanation:
