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Furthermore, it is not possible to solve one linear equation in two variables. You can only express one variable in terms of the other.

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10y ago
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14y ago

Collect the terms in a, then the terms in b, getting 6a - 3a + 2b + 5b which simplifies to 3a + 7b. Gettit?

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9y ago

6(a + b)(b - c)

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Q: How do you factor 6ab - 6ac plus 6b2 - 6bc?
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How do you factor 6a2 plus 5ab - 6b2?

6a2 + 5ab - 6b2 = (3a - 2b)(2a + 3b)


What is the factor polynomial 6b2-15b3?

-3b2(5b - 2)


How do you factor out 6b2-15b-6?

3(2b2 - 5b - 2)


How do you factor 6b2-7b-20?

(-3b - 4)(-2b + 5)


Which is a factor of 6a2 5ab - 6b2?

(3a - 2b)(2a + 3b)


Which is a factor of 6a2 plus 5ab - 6b2?

Considering the minus sign between 5ab and 6b2 then we have the polynomial as 6a2 + 5ab - 6b2. The polynomial is a quadratic polynomial.Steps to factorize a quadratic polynomial:1 - Multiply first term by third term. 6a2 x (-6b2) = -36a2b22 - If possible break the second term into two terms such that they multiple to -36a2b2. If not then it is factorized by Sridharacharya's formula.5ab can be broken as 9ab + (-4ab).These two terms multiply to give -36a2b2.So we can write 6a2 + 5ab - 6b2 = 6a2 + 9ab + (-4ab) - 6b2.6a2 + 9ab - 4ab - 6b2 = 3a(2a + 3b) - 2b(2a + 3b) = (2a + 3b)(3a - 2b).So the factors are (2a + 3b) and (3a - 2b).


How do you factor the trinomial 6b2-13bs-63s2?

6b^2-13bs-63s^2 is factorised to (2b-9s)(3b+7s)


What are all the factors of the monomial 6ab to the 2nd power?

They are 1, 2, 3, 4, 6, 9, 12, 18, 36,1a, 2a, 3a, 4a, 6a, 9a, 12a, 18a, 36a,1b, 2b, 3b, 4b, 6b, 9b, 12b, 18b, 36b,1a2, 2a2, 3a2, 4a2, 6a2, 9a2, 12a2, 18a2, 36a2,1ab, 2ab, 3ab, 4ab, 6ab, 9ab, 12ab, 18ab, 36ab,1b2, 2b2, 3b2, 4b2, 6b2, 9b2, 12b2, 18b2, 36b2.


Solve for a a2-8a plus 12 a-2 -6b2 6 c -3 -4 d 3 4?

a2-8a plus 12, if done correctly according to calculus, results in the number 2.


Prove that square root of 6 is irrational number?

If a/b=sqrt(6), then a2=6b2 On the other hand, given integers ''a'' and ''b'', because the valuation (i.e., highest power of 2 dividing a number) of 6b2 is odd, while the valuation of a2 is even, they must be distinct integers. Contradiction.


Solve by factoring 6b2-13b 6 equals 0?

The question is ambiguous because there is no sign shown before the final 6. Assume it is +6 since -6 would make factorisation very difficult. Thus the equation is 6b2 - 13b + 6 = 0 Then 6b2 - 4b - 9b + 6 = 0 or 2b(3b - 2) - 3(3b - 2) = 0 ie (3b - 2)(2b - 3) = 0 then 3b -2 = 0 or 2b - 3 = 0 so 3b =2 or 2b = 3 ie b = 2/3 or b = 3/2


Why is the square root of 24 irrational?

If it were rational, then the square root of 6 would be also since sqrt 24 is sqrt(4x6)=2xsqrt(6) and here is a proof the sqrt(6) is irrational So let's assume by contradiction that the square root of 6 is rational. By definition, that means there are two integers a and b with no common divisors where: a/b = square root of 6. So let's multiply both sides by themselves: (a/b)(a/b) = (square root of 6)(square root of 6) a2/b2 = 6 a2 = 6b2 But this last statement means the RHS (right hand side) is even, because it is a product of integers and one of those integers (at least) is even. So a2 must be even. But any odd number times itself is odd, so if a2 is even, then a is even. Since a is even, there is some integer c that is half of a, or in other words: 2c = a. Now let's replace a with 2c: a2 = 6b2 (2c)2 = (2)(3)b2 2c2 = 3b2 But now we can argue the same thing for b, because the LHS is even, so the RHS must be even and that means b is even. Now this is the contradiction: if a is even and b is even, then they have a common divisor (2). Then our initial assumption must be false, so the square root of 6 cannot be rational.