2p + 1 is the simplest form this sum will go in.
2p + 11p + 5 = 13p + 5 which does not factor. If the expression had been 2p2 + 11p + 5 then this can be factored, 2p2 + 11p + 5 = (2p + 1)(p + 5)
3p+7 = 16+2p 3p-2p = 16-7 p = 9
2p+7p = 9p simplified
3p = 2p + 12 subtract 2p from both sides 3p - 2p = 2p - 2p + 12 1p = 12 p = 12 this is how you solve this problem.
It equals 2p because p+p=2p.
8p3 + 1 = (2p + 1)(4p2 - 2p + 1)
-3+4p-2p=1 -3+2p=1 2p=4 p=2
If you mean: 7p-3p+4-2 = 2p-1+10 => 4p+2 = 2p+9 => 2p = 7 Therefore: p = 7/2 => p = 3.5
5p-1=2p-20 3p=21 p=7
p2 - 2p + 2 can be factored as (p - 1)(p - 1)which can be written as ( p - 1)2.
That depends what the value of p is.
2p + 11p + 5 = 13p + 5 which does not factor. If the expression had been 2p2 + 11p + 5 then this can be factored, 2p2 + 11p + 5 = (2p + 1)(p + 5)
The answer to the question is: (2p+1)(2p+81) for Equation 4p^2+164p+81 P.S ^ is exponent
-2p-18
To find the value of p, simply use addition, subtraction and division to isolate p: 5p -1 = 2p + 20 5p - 2p - 1 = 2p - 2p + 20 3p - 1 + 1 = 20 + 1 3p/3 = 21/3 p = 7 The value of p is 7.
3p+7 = 16+2p 3p-2p = 16-7 p = 9
2p+7p = 9p simplified