Answer:
= 3^5 * 2^5
Step-by-step explanation:
p = 2^3 * 3^4
12 p = 12 * 2^3 * 3^4
Rewriting 12 as 3*2*2
= 3* 2*2 *2^3 * 3^4
= 3 * 3^4 * 2^2 * 2^3
We know that a^b * a^c = a^(b+c)
= 3^(1+4) * 2^(2+3)
= 3^5 * 2^5
The solution to the system of equations is (x, y) = (2, -1).
<h3>What is a system of equations?</h3>
A system of equations is two or more equations that can be solved to get a unique solution. the power of the equation must be in one degree.
WE are given the system of equations
2x−y=5
y = 2x - 5
y=3x−7
Adding the two equations Then divide by 2
Subtracting the second equation from the first gives;
0 = x -2
x = 2
y = -1
therefore, The solution is (x, y) = (2, -1).
The solution to the system of equations is (x, y) = (2, -1).
Learn more about equations here;
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Answer:
Distributive Property
Step-by-step explanation:
Answer:
Ten thousandths
Step-by-step explanation:
The 4 is in the ones place, so the 5 is in the tenths, the 0 in the hundredths, the 1 in the thousandths, so the 2 is in the ten thousandths.
x is time and y is pencils that you have
'starts with 90' so at x=0, plot y=90
'gives away 15 every hour' so for every 1 hour, move 15 down on y
so at x=1, do 90-15=75 pencils
at x=2, do 75-15=60 pencils
etc
until you get to
x=6, do 15-15=0 pencils then stop because you can't give away 15 pencils when you have 0
see attachment for plot
I don't know how your segment tool works so you do it
if it draws a line, you only need 2 points, just do when x=0, y=90 and when x=6, y=0