It is: 4023/6 = 670 with a remainder of 3
2x2-4x+5 divided by x-1 Quotient: 2x-2 Remainder: 3
Add seven to any multiple of 8. 63 divided by 8 has a remainder of 7.
The answer would be 100, with 34 remainder.
8*7 = 56, plus the remainder.
Quotient: 2x3-x2-14x+42 Remainder: -131 over (x+3)
True.
2x2-4x+5 divided by x-1 Quotient: 2x-2 Remainder: 3
The signification is: dividing the mass number of any isotope from this decay series the remainder is 2.
True-APEX
ccc plus exam result 2009
c2 - 4 = (c+2)*(c-2) So, dividing by (c+2) leaves the other factor: (c-2)
2,019,045
(x^3 + 3x^2 - x - 2)/[(x + 3)(x + 5) in this case you can use the long division to divide polynomials and to find the remainder of this division. But you cannot use neither the synthetic division to divide polynomials nor the Remainder theorem to determine the remainder. You can use both the synthetic division and the Remainder theorem only if the divisor is in the form x - c. In this case the remainder must be a constant because its degree is less than 1, the degree of x - c. The remainder theorem says that if a polynomial f(x) is divided by x - c, then the remainder is f(c). If the question is to determine the remainder by using the remainder theorem, then you are asking to find the value of f(-3) when you are dividing by x + 3, or f(-5)when you are dividing by x + 5 . Just substitute -3 or -5 with x into the dividend x^3 + 3x^2 - x - 2, and you can find directly the value of the remainder. f(-3) = (-3)^3 + 3(-3)^2 - (-3) - 2 = -27 + 27 + 3 - 2 = 1 (remainder is 1) f(-5) = (-5)^3 + 3(-5)^2 - (-5) - 2 = -125 + 75 + 5 - 2 = -47 (remainder is -47).
Add seven to any multiple of 8. 63 divided by 8 has a remainder of 7.
The answer could be 34 remainder 2, or it could be 35.
The answer would be 100, with 34 remainder.
The % that you refer to is called the modulus. It refers to the remainder when dividing. For instance: 6%3 is 0, because 3 goes into 6 evenly. For your example, 3%2 is 1, because 2 goes into 3 once with a remainer of 1.