There is not a greatest common factor of a single number, such as 5p, because there cannot be a greatest common factor without two or more numbers to compare. Common factors are factors that the numbers being compared have in common. The greatest common factor is the largest factor that all the numbers being compared have in common. Thus, since there are not two or more numbers to compare, there are neither common factors nor a greatest common factor.The factors of 5p are 1, 5, p, and 5p.Examples:The greatest common factor of 5p and 30p is 5p.The greatest common factor of 5p and 43p is p.The greatest common factor of 5p and 83 is 1, unless p is a multiple of 83, in which case the greatest common factor is 83.
The greatest common factor (GCF) of 5p and 20p² is 5p. To find the GCF, you need to identify the common factors of both terms and choose the highest one. In this case, both terms have 5 and p as common factors, but the term with the lower power of p is 5p. Therefore, the GCF is 5p.
5
1/4
It is 5/40, which can be simplified, if required.
The GCF is 5p.
There is not a greatest common factor of a single number, such as 5p, because there cannot be a greatest common factor without two or more numbers to compare. Common factors are factors that the numbers being compared have in common. The greatest common factor is the largest factor that all the numbers being compared have in common. Thus, since there are not two or more numbers to compare, there are neither common factors nor a greatest common factor.The factors of 5p are 1, 5, p, and 5p.Examples:The greatest common factor of 5p and 30p is 5p.The greatest common factor of 5p and 43p is p.The greatest common factor of 5p and 83 is 1, unless p is a multiple of 83, in which case the greatest common factor is 83.
The greatest common factor of 5p and 20pp is 5p.Factors of 20pp can be written out as 1p and 20p, 2p and 10p, 4p and 5p.Factors of 5p can be written as 1 and 5p or 1p and 5.The highest factor they both have in common is 5p.
The greatest common factor (GCF) of 5p and 20p² is 5p. To find the GCF, you need to identify the common factors of both terms and choose the highest one. In this case, both terms have 5 and p as common factors, but the term with the lower power of p is 5p. Therefore, the GCF is 5p.
13 ways. They are:10 x 5p8 x 5p + 1 x 10p6 x 5p + 2 x 10p6 x 5p + 1 x 20p4 x 5p + 3 x 10p4 x 5p + 1 x 10p + 1 x 20p2 x 5p + 4 x 10p2 x 5p + 2 x 10p + 1 x 20p2 x 5p + 2 x 20p5 x 10p3 x 10p + 1 x 20p1 x 10P + 2 x 20p1 x 50pNote that no modern British coins are made of silver, though. Coins of 5p and above are made of copper-nickel.
Since 5p is a factor of 20p, it is automatically the GCF.
You factor out 5 from the expression (10+5p). You get 2(5+p).
14n^2 - 33np -5p^2 =14n^2 -35np+ 2np -5p^2 .. (mid term breaking) = 7n(2n-5p) + p(2n-5p) =(2n-5p)(7n+p) here you go you are done =)
If all the terms are positive then it is: (2p+3)(p+1)
(2p - 5)(5p^2 + 2)
6(5p)=30p
5p+5p