Is {(-2)^5}^(1/5) a complex number ?

AI Thread Summary
The expression E = {(-2)^5}^(1/5) can yield both a real number and complex numbers. The real solution is -2, while the principal root provided by Wolfram Alpha is a complex number, specifically 1.61803398874989 + 1.17557050458495i. There are a total of five solutions to the equation x^5 = (-2)^5, including four complex numbers and one real number. Users can select the real-valued root option in Wolfram Alpha to obtain -2 instead of the complex principal root. Understanding the distinction between the principal root and real-valued root is essential in solving such equations.
phydis
Messages
28
Reaction score
0
Last edited by a moderator:
Mathematics news on Phys.org
Notice how the alpha page says
Assuming the principal root | Use the real‐valued root instead
If you select the real valued option you'll get -2.
 
  • Like
Likes 1 person
You have a typo
E = {(-2)^5}^(1/5)=(-32)^(1/5)
There are five numbers such that x^5=-32
(-32)^(1/5) should be one of them
they are
1.61803398874989+1.17557050458495 i
-0.61803398874989+1.90211303259031 i
-2
-0.61803398874989-1.90211303259031 i
1.61803398874989-1.17557050458495 i

We chose 1.61803398874989+1.17557050458495 i as it is first on the list and the most reasonable choice. Some people inexplicably pick -2.
 
  • Like
Likes 1 person
There are *five* solutions to x5=(-2)5. One of them is the real number -2. The other four are complex numbers. Wolfram Alpha gives you the principal root by default. You can force it to yield the real-valued root by clicking on "Use the real‐valued root instead".

You can see all five solutions if you instead ask WA to solve x5=(-2)5.
 
  • Like
Likes 1 person
got it. Thanks everyone!
 

Thread 'Trigonometry problem of interest'

Seemingly by some mathematical coincidence, a hexagon of sides 2,2,7,7, 11, and 11 can be inscribed in a circle of radius 7. The other day I saw a math problem on line, which they said came from a Polish Olympiad, where you compute the length x of the 3rd side which is the same as the radius, so that the sides of length 2,x, and 11 are inscribed on the arc of a semi-circle. The law of cosines applied twice gives the answer for x of exactly 7, but the arithmetic is so complex that the...
View full post »

Thread 'Six Pencil Puzzle'

Is it possible to arrange six pencils such that each one touches the other five? If so, how? This is an adaption of a Martin Gardner puzzle only I changed it from cigarettes to pencils and left out the clues because PF folks don’t need clues. From the book “My Best Mathematical and Logic Puzzles”. Dover, 1994.
View full post »

Similar threads

I Formal definition of multiplication for real and complex numbers
Replies
2
Views
2K
A Summation simpilification process
Replies
5
Views
1K
Product Log Function - Lambert W Function
Replies
1
Views
3K
I What are the applications of inverses of vector functions?
Replies
17
Views
3K
How Did 1886 Dutch Students Solve This Complex Math Problem?
Replies
34
Views
3K
B How can complex numbers be elevated to complex powers?
Replies
12
Views
3K
I Newton-Raphson Method With Complex Numbers
Replies
7
Views
3K
MHB 1.4.1 complex number by condition
Replies
13
Views
2K
B Computing a tricky complex math problem - where did I go wrong?
Replies
7
Views
1K
B Natural Numbers contain all the Primes
Replies
24
Views
3K

Hot Threads

Recent Insights

Back
Top