To write the numbers 60,000,000, 10,000, 20, and 3 in standard form, you can express them as follows: 60 million is written as (6 \times 10^7), 10,000 as (1 \times 10^4), 20 as (2 \times 10^1), and 3 as (3 \times 10^0). These forms highlight the significant figures and the powers of ten associated with each number.
To express the numbers 60000000, 10000, 20, and 3 in standard form (scientific notation), you write them as follows: 60000000 becomes ( 6.0 \times 10^7 ), 10000 becomes ( 1.0 \times 10^4 ), 20 becomes ( 2.0 \times 10^1 ), and 3 becomes ( 3.0 \times 10^0 ). Standard form is typically used to simplify large or small numbers, making them easier to work with in calculations.
7 (3/10000)
3/20 = 3 ÷ 20 = 0.15
0.06% = 0.0006 = 6/10000 or 3/5000 in fraction
3/20
34
60,010,023 6.0010023 x 10^7
10000+7000+600+20+9
7 (3/10000)
10,327 = (1 x 104) + (0 x 103) + (3 x 102) + (2 x 101) + (7 x 100)
7*1000000 + 8*10000 + 3*100
700000 + 10000 + 9000 + 300 + 40 + 3
3/20 = 3 ÷ 20 = 0.15
0.06% = 0.0006 = 6/10000 or 3/5000 in fraction
312,393.205 = (3 x 100000) + (1 x 10000) + (2 x 1000) + (3 x 100) + (9 x 10) + (3 x 1) + (2/10) + (0/100) + (5/1000)
3 and 3/20
I'll do it both ways since you do not specify whether it is simple of compound interest. FV = P + PRT 10000 = P + P(.03)(20) 10000 = P(1 + 0.60) 10000 = 1.6P 6250 = P Check 6250 * .03 * 20 = 3750 + 6250 = 10000 ◄ FV = P + P(1+R)T 10000 = P + P(1.03)20 10000 = P + P(1.80611) 10000 = 2.80611*P 3563.65 = P Check 3563.25 + 3563.25(1.03)20 3563.25 + 3563.25*1.80611 3563.25 + 6436.35 9999.70 (Rounding error) ◄