## 3.9.5 Numerical Solution of Polynomial Equations

When Solve cannot find explicit solutions to polynomial equations, it returns a symbolic form of the result in terms of Root objects.
 In[1]:=  Solve[x^5 + 7x + 1 0, x]
 Out[1]=
You can get numerical solutions by applying N.
 In[2]:=  N[%]
 Out[2]=
This gives the numerical solutions to 25-digit precision.
 In[3]:=  N[%%, 25]
 Out[3]=
You can use NSolve to get numerical solutions to polynomial equations directly, without first trying to find exact results.
 In[4]:=  NSolve[x^7 + x + 1 0, x]
 Out[4]=

 NSolve[poly0, x] get approximate numerical solutions to a polynomial equation NSolve[poly0, x, n] get solutions to n-digit precision

Numerical solution of polynomial equations.

NSolve will always give you the complete set of numerical solutions to any polynomial equation in one variable.

You can also get numerical solutions to sets of simultaneous polynomial equations. You can use Solve to "unwind" the simultaneous equations, and then apply N to get numerical results.

Solve writes the solution in terms of roots of a polynomial in one variable.
 In[5]:=  First[ Solve[{x^2 + y^2 1, x^3 + y^3 2}, {x, y}]]
 Out[5]=
You can apply N to get a numerical result.
 In[6]:=  N[%]
 Out[6]=

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