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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.
100 ÷ 20 = 5 Therefore 20p is a fifth of one pound Sterling.
It is 5/40, which can be simplified, if required.
It is 5/100.
20p = £0.20, which is 1/10 of £2.00
Since 5p is a factor of 20p, it is automatically the GCF.
30p = 20p + 5p + 5p 40p = 20p + 10p + 10p
To simplify the expression -5p³(4p² + 3p¹), distribute -5p³ to both terms inside the parentheses. This results in -5p³ * 4p² = -20p^(3+2) = -20p⁵ and -5p³ * 3p¹ = -15p^(3+1) = -15p⁴. Therefore, the final expression is -20p⁵ - 15p⁴.
20p,50p,5p,2p
5px4p=20p 5px5=25p so 20p-25p=-5p
40 ways.
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.
9 x 5p 7 x 5p, 1 x 10p 5 x 5p, 1 x 20p 5 x 5p, 2 x 10p 3 x 5p, 1 x 10p, 1 x 20p 3 x 5p, 3 x 10p 1 x 5p, 4 x 10p 1 x 5p, 2 x 20p 1 x 5p, 2 x 10p, 1 x 20p
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Different countries have different coinage. You have not specified a country. In the UK, for example, you could do 50p + 20p + 20p + 20p + 10p + 5p = 1.25p
20p + 10p + 5p + 1p = 36p
To simplify the expression (3(5p - 3) + 5(p - 1)), first distribute the numbers outside the parentheses: (3(5p - 3) = 15p - 9) (5(p - 1) = 5p - 5) Now combine the results: (15p - 9 + 5p - 5 = 20p - 14). Thus, the simplified expression is (20p - 14).