5k
2k + 17 = 32k = -14k = -7
The above expression can be simplified to:14n-2k
The expression ( k + 1 + k + 4 ) can be simplified by combining like terms. First, combine the ( k ) terms: ( k + k = 2k ). Then, combine the constant terms: ( 1 + 4 = 5 ). Therefore, the simplified expression is ( 2k + 5 ).
20K + 5010(2K + 5)=============all that can be factored here
k = 14/43
5k
2k + 17 = 32k = -14k = -7
k=4
The above expression can be simplified to:14n-2k
36.64
It is -57k + 324
The expression ( k + 1 + k + 4 ) can be simplified by combining like terms. First, combine the ( k ) terms: ( k + k = 2k ). Then, combine the constant terms: ( 1 + 4 = 5 ). Therefore, the simplified expression is ( 2k + 5 ).
20K + 5010(2K + 5)=============all that can be factored here
To find (4k^3 + 2k^2), you can simply express it as is since it’s already in a simplified polynomial form. This expression represents a cubic term (4k^3) and a quadratic term (2k^2). If you need further simplification or factoring, you can factor out (2k^2), resulting in (2k^2(2k + 1)).
Yes - The expression '2k=6' means six is the result of multiplying k by 2. Therefore k=3, and 6 is (of course) a multiple of 3.
The algebraic expression for twice a number ( k ) plus the quantity ( s - 2 ) can be written as ( 2k + (s - 2) ). This combines the two components by first calculating twice the value of ( k ) and then adding the result to ( s - 2 ). Therefore, the complete expression is ( 2k + s - 2 ).