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2 years ago

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Given two points on a line determine (a) the slope of the line using m=y^2-y^1/x^2-x^1 and (b) the equation of the line in y= mx

+ b form (-2,5) (3,-5)

2 answers:

FinnZ [79.3K]2 years ago

5 0

I don’t know I’m not good at geography

Anni [7]2 years ago

3 0

(2,5) (3,-) do not quote me on it but I think that’s wrong

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Help pls QUICKK AND TY!

AfilCa [17]

Answer:

Graph 1 is C

Graph 2 is A

Graph 3 is B

Graph 4 is D

Step-by-step explanation:

If there are more you need help with I am happy to help

5 0

2 years ago

Solve for x. You must write you answer in fully simplified form. -11 = -8x

VLD [36.1K]

inproper fraction form:

$x=\frac{11}{8}$

Decimal form:

$x=1.375$

Mixed number form:

$x=1\frac{3}{8}$

Hope this helps :)

4 0

2 years ago

Read 2 more answers

Simplify the expression<br> -3x+5y-2+7x-8y+5

Natasha2012 [34]

To simplify this expression we need, at first, to find like terms.

<span>-3x+5y-2+7x-8y</span><span>-3x+5 = (</span>-3x+7x)+ (5y-8y) -2+5 = 4x + 3y +3

4x + 3y +3 is the answer.

8 0

3 years ago

What is this number in standard form?<br><br> (3×100)+(1×110)+(4×11,000)

zimovet [89]

Answer:

44410

Step-by-step explanation:

6 0

2 years ago

Please help!!!!!!!!!!!!!!!! 100pts,

Helga [31]

QUESTION:

The code for a lock consists of 5 digits (0-9). The last number cannot be 0 or 1. How many different codes are possible.

ANSWER:

Since in this particular scenario, the order of the numbers matter, we can use the Permutation Formula:–

P(n,r) = n!/(n−r)! where n is the number of numbers in the set and r is the subset.

Since there are 10 digits to choose from, we can assume that n = 10.

Similarly, since there are 5 numbers that need to be chosen out of the ten, we can assume that r = 5.

Now, plug these values into the formula and solve:

= 10!(10−5)!

= 10!5!

= 10⋅9⋅8⋅7⋅6

= 30240.

3 0

2 years ago