No, it is not.
4(3b+2)
4(3b - 5) < -31 + 12b12b - 20 < -31 + 12b, this is not true because -20 > - 31, so that the solution for the given inequality does not exist.
It is not an equation but an algebraic expression that can be simplified to: 12b-5a
(3b)5 = 243 b5The actual numerical value depends on the value of ' b ',and it changes instantly any time ' b ' changes.
If the missing operational signs are pluses, that's 3b^2 + 4b + 1
-9/4b -10/3b =-67/6 9/4b +10/3b = 67/6 27/12b + 40/12b = 67/6 67/12b =67/6 12b = 6 b = 6/12 b=1/2
4(3b+2)
Transition metals or d-block elements
d-block elements or transition metals
15b + 13c - 12b + 10c + 8 = 3b + 23c + 8
4(3b - 5) < -31 + 12b12b - 20 < -31 + 12b, this is not true because -20 > - 31, so that the solution for the given inequality does not exist.
12b - 5 = 15b + 5 subtract 12b from both sides 12b - 12b - 5 = 15b - 12b + 5 - 5 = 3b + 5 subtract 5 from each side - 5 - 5 = 3b + 5 - 5 - 10 = 3b divide both sides integers by 3 - 10/3 = (3/3)b - 10/3 = b ---------------------check in original equation ( change whole numbers to fractions of common denominations ) 12(-10/3) - 15/3 = 15(-10/3) + 15/3 - 120/3 - 15/3 = - 150/3 + 15/3 - 45 = - 45 checks
It is not an equation but an algebraic expression that can be simplified to: 12b-5a
Do you mean...? 12b + 8 4(3b + 2) ============( if you meant b12, then there is no factoring possible )
(3b)5 = 243 b5The actual numerical value depends on the value of ' b ',and it changes instantly any time ' b ' changes.
4b
If the missing operational signs are pluses, that's 3b^2 + 4b + 1