1.Changes made to your input should not affect the solution:
(1): "t2" was replaced by "t^2".
STEP
1
:
Trying to factor as a Sum of Cubes:
1.1 Factoring: d3o3t258+31
Theory : A sum of two perfect cubes, a3 + b3 can be factored into :
(a+b) • (a2-ab+b2)
Proof : (a+b) • (a2-ab+b2) =
a3-a2b+ab2+ba2-b2a+b3 =
a3+(a2b-ba2)+(ab2-b2a)+b3=
a3+0+0+b3=
a3+b3 2.hanges made to your input should not affect the solution:
(1): "u2" was replaced by "u^2". 1 more similar replacement(s).
Illegal Character
3.Changes made to your input should not affect the solution:
(1): "3.5" was replaced by "(35/10)".
7
Simplify —
2
Equation at the end of step
((((— + 8) + 11) + 14) + d3o3t3) + 35
Rewriting the whole as an Equivalent Fraction
2.1 Adding a whole to a fraction
Rewrite the whole as a fraction using 2 as the denominator :
8 8 • 2
8 = — = —————
1 2
pa Brainliest po
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Answers & Comments
1.Changes made to your input should not affect the solution:
(1): "t2" was replaced by "t^2".
STEP
1
:
Trying to factor as a Sum of Cubes:
1.1 Factoring: d3o3t258+31
Theory : A sum of two perfect cubes, a3 + b3 can be factored into :
(a+b) • (a2-ab+b2)
Proof : (a+b) • (a2-ab+b2) =
a3-a2b+ab2+ba2-b2a+b3 =
a3+(a2b-ba2)+(ab2-b2a)+b3=
a3+0+0+b3=
a3+b3 2.hanges made to your input should not affect the solution:
(1): "u2" was replaced by "u^2". 1 more similar replacement(s).
Illegal Character
3.Changes made to your input should not affect the solution:
(1): "3.5" was replaced by "(35/10)".
STEP
1
:
7
Simplify —
2
Equation at the end of step
1
:
7
((((— + 8) + 11) + 14) + d3o3t3) + 35
2
STEP
2
:
Rewriting the whole as an Equivalent Fraction
2.1 Adding a whole to a fraction
Rewrite the whole as a fraction using 2 as the denominator :
8 8 • 2
8 = — = —————
1 2
pa Brainliest po