Solution - Adding, subtracting and finding the least common multiple
Step by Step Solution
Reformatting the input :
Changes made to your input should not affect the solution:
(1): "^-3" was replaced by "^(-3)". 1 more similar replacement(s)
(2): "6.3" was replaced by "(63/10)". 2 more similar replacement(s)
Step 1 :
1.1 10 = 2•5
(10)-3 = (2•5)(-3) = (2)(-3) • (5)(-3)
Equation at the end of step 1 :
48 63
(——•(10-3))+(——•((2)(-3)•(5)(-3)))
10 10
Step 2 :
63
Simplify ——
10
Equation at the end of step 2 :
48 63
(—— • (10-3)) + (—— • ((2)(-3)•(5)(-3)))
10 10
Step 3 :
Multiplying exponents :
3.1 21 multiplied by 23 = 2(1 + 3) = 24
Raising to a Power :
3.2 51 multiplied by 53 = 5(1 + 3) = 54
Equation at the end of step 3 :
48 63
(—— • (10-3)) + ———————
10 (24•54)
Step 4 :
4.1 10 = 2•5
(10)-3 = (2•5)(-3) = (2)(-3) • (5)(-3)
Equation at the end of step 4 :
48 63
(—— • ((2)(-3)•(5)(-3))) + ———————
10 (24•54)
Step 5 :
24
Simplify ——
5
Equation at the end of step 5 :
24 63
(—— • ((2)(-3)•(5)(-3))) + ———————
5 (24•54)
Step 6 :
Multiplying exponents :
6.1 51 multiplied by 53 = 5(1 + 3) = 54
Canceling Out :
6.2 Canceling out 23 as it appears on both sides of the fraction line
Equation at the end of step 6 :
3 63
——— + ———————
625 (24•54)
Step 7 :
7.1 Finding a Common Denominator The left 625 The right 24 • 54 The product of any two denominators can be used as a common denominator. Said product is not necessarily the least common denominator. As a matter of fact, whenever the two denominators have a common factor, their product will be bigger than the least common denominator. Anyway, the product is a fine common denominator and can perfectly be used for calculating multipliers, as well as for generating equivalent fractions. 625 • 24 • 54 will be used as a common denominator.
Calculating Multipliers :
7.2 Calculate multipliers for the two fractions
Denote the Least Common Multiple by L.C.M
Denote the Left Multiplier by Left_M
Denote the Right Multiplier by Right_M
Denote the Left Deniminator by L_Deno
Denote the Right Multiplier by R_Deno
Left_M = L.C.M / L_Deno = 24 • 54
Right_M = L.C.M / R_Deno = 625
Making Equivalent Fractions :
7.3 Rewrite the two fractions into equivalent fractions
Two fractions are called equivalent if they have the same numeric value.
For example : 1/2 and 2/4 are equivalent, y/(y+1)2 and (y2+y)/(y+1)3 are equivalent as well.
To calculate equivalent fraction , multiply the Numerator of each fraction, by its respective Multiplier.
L. Mult. • L. Num. 3 • (24•54) —————————————————— = ————————————— Common denominator 625 • (24•54) R. Mult. • R. Num. 63 • 625 —————————————————— = ————————————— Common denominator 625 • (24•54)
Adding fractions that have a common denominator :
7.4 Adding up the two equivalent fractions
Add the two equivalent fractions which now have a common denominator
Combine the numerators together, put the sum or difference over the common denominator then reduce to lowest terms if possible:
3 • (24•54) + 63 • 625 3•24•54 + 39375
—————————————————————— = ———————————————
625 • (24•54) 625 • (24•54)
Step 8 :
Pulling out like terms :
8.1 Pull out like factors :
3 • 24 • 54 + 39375 = 3 • (1 + 13125)
Final result :
3 • (1 + 13125)
———————————————
625 • (24•54)
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