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Jim Carroll
Jim Carroll
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Oh, for numbers that big, you would use the decimal module.

ns: your number as a string

ns = "11968003966030964356885611480383408833172346450467339251196093144141045683463085291115677488411620264826942334897996389485046262847265769280883237649461122479734279424416861834396522819159219215308460065265520143082728303864638821979329804885526557893649662037092457130509980883789368448042961108430809620626059287437887495827369474189818588006905358793385574832590121472680866521970802708379837148646191567765584039175249171110593159305029014037881475265618958103073425958633163441030267478942720703134493880117805010891574606323700178176718412858948243785754898788359757528163558061136758276299059029113119763557411729353915848889261125855717014320045292143759177464380434854573300054940683350937992500211758727939459249163046465047204851616590276724564411037216844005877918224201569391107769029955591465502737961776799311859881060956465198859727495735498887960494256488224613682478900505821893815926193600121890632" from decimal import Decimal d = Decimal(ns) one_third = Decimal("0.3333333333333333") print d ** one_third

and the answer is: 2.287391878618402702753613056E+305

TZ pointed out that this isn't accurate... and he's right. Here's my test.

from decimal import Decimal def nth_root(num_decimal, n_integer): exponent = Decimal("1.0") / Decimal(n_integer) return num_decimal ** exponent def test(): ns = "11968003966030964356885611480383408833172346450467339251196093144141045683463085291115677488411620264826942334897996389485046262847265769280883237649461122479734279424416861834396522819159219215308460065265520143082728303864638821979329804885526557893649662037092457130509980883789368448042961108430809620626059287437887495827369474189818588006905358793385574832590121472680866521970802708379837148646191567765584039175249171110593159305029014037881475265618958103073425958633163441030267478942720703134493880117805010891574606323700178176718412858948243785754898788359757528163558061136758276299059029113119763557411729353915848889261125855717014320045292143759177464380434854573300054940683350937992500211758727939459249163046465047204851616590276724564411037216844005877918224201569391107769029955591465502737961776799311859881060956465198859727495735498887960494256488224613682478900505821893815926193600121890632" nd = Decimal(ns) cube_root = nth_root(nd, 3) print (cube_root ** Decimal("3.0")) - nd if __name__ == "__main__": test()

It's off by about 10*89110**891

Oh, for numbers that big, you would use the decimal module.

ns: your number as a string

ns = "11968003966030964356885611480383408833172346450467339251196093144141045683463085291115677488411620264826942334897996389485046262847265769280883237649461122479734279424416861834396522819159219215308460065265520143082728303864638821979329804885526557893649662037092457130509980883789368448042961108430809620626059287437887495827369474189818588006905358793385574832590121472680866521970802708379837148646191567765584039175249171110593159305029014037881475265618958103073425958633163441030267478942720703134493880117805010891574606323700178176718412858948243785754898788359757528163558061136758276299059029113119763557411729353915848889261125855717014320045292143759177464380434854573300054940683350937992500211758727939459249163046465047204851616590276724564411037216844005877918224201569391107769029955591465502737961776799311859881060956465198859727495735498887960494256488224613682478900505821893815926193600121890632" from decimal import Decimal d = Decimal(ns) one_third = Decimal("0.3333333333333333") print d ** one_third

and the answer is: 2.287391878618402702753613056E+305

TZ pointed out that this isn't accurate... and he's right. Here's my test.

from decimal import Decimal def nth_root(num_decimal, n_integer): exponent = Decimal("1.0") / Decimal(n_integer) return num_decimal ** exponent def test(): ns = "11968003966030964356885611480383408833172346450467339251196093144141045683463085291115677488411620264826942334897996389485046262847265769280883237649461122479734279424416861834396522819159219215308460065265520143082728303864638821979329804885526557893649662037092457130509980883789368448042961108430809620626059287437887495827369474189818588006905358793385574832590121472680866521970802708379837148646191567765584039175249171110593159305029014037881475265618958103073425958633163441030267478942720703134493880117805010891574606323700178176718412858948243785754898788359757528163558061136758276299059029113119763557411729353915848889261125855717014320045292143759177464380434854573300054940683350937992500211758727939459249163046465047204851616590276724564411037216844005877918224201569391107769029955591465502737961776799311859881060956465198859727495735498887960494256488224613682478900505821893815926193600121890632" nd = Decimal(ns) cube_root = nth_root(nd, 3) print (cube_root ** Decimal("3.0")) - nd if __name__ == "__main__": test()

It's off by about 10*891

Oh, for numbers that big, you would use the decimal module.

ns: your number as a string

ns = "11968003966030964356885611480383408833172346450467339251196093144141045683463085291115677488411620264826942334897996389485046262847265769280883237649461122479734279424416861834396522819159219215308460065265520143082728303864638821979329804885526557893649662037092457130509980883789368448042961108430809620626059287437887495827369474189818588006905358793385574832590121472680866521970802708379837148646191567765584039175249171110593159305029014037881475265618958103073425958633163441030267478942720703134493880117805010891574606323700178176718412858948243785754898788359757528163558061136758276299059029113119763557411729353915848889261125855717014320045292143759177464380434854573300054940683350937992500211758727939459249163046465047204851616590276724564411037216844005877918224201569391107769029955591465502737961776799311859881060956465198859727495735498887960494256488224613682478900505821893815926193600121890632" from decimal import Decimal d = Decimal(ns) one_third = Decimal("0.3333333333333333") print d ** one_third

and the answer is: 2.287391878618402702753613056E+305

TZ pointed out that this isn't accurate... and he's right. Here's my test.

from decimal import Decimal def nth_root(num_decimal, n_integer): exponent = Decimal("1.0") / Decimal(n_integer) return num_decimal ** exponent def test(): ns = "11968003966030964356885611480383408833172346450467339251196093144141045683463085291115677488411620264826942334897996389485046262847265769280883237649461122479734279424416861834396522819159219215308460065265520143082728303864638821979329804885526557893649662037092457130509980883789368448042961108430809620626059287437887495827369474189818588006905358793385574832590121472680866521970802708379837148646191567765584039175249171110593159305029014037881475265618958103073425958633163441030267478942720703134493880117805010891574606323700178176718412858948243785754898788359757528163558061136758276299059029113119763557411729353915848889261125855717014320045292143759177464380434854573300054940683350937992500211758727939459249163046465047204851616590276724564411037216844005877918224201569391107769029955591465502737961776799311859881060956465198859727495735498887960494256488224613682478900505821893815926193600121890632" nd = Decimal(ns) cube_root = nth_root(nd, 3) print (cube_root ** Decimal("3.0")) - nd if __name__ == "__main__": test()

It's off by about 10**891

added 1375 characters in body
Source Link
Jim Carroll
Jim Carroll
  • 2.3k
  • 17
  • 23

Oh, for numbers that big, you would use the decimal module.

ns: your number as a string

ns = "11968003966030964356885611480383408833172346450467339251196093144141045683463085291115677488411620264826942334897996389485046262847265769280883237649461122479734279424416861834396522819159219215308460065265520143082728303864638821979329804885526557893649662037092457130509980883789368448042961108430809620626059287437887495827369474189818588006905358793385574832590121472680866521970802708379837148646191567765584039175249171110593159305029014037881475265618958103073425958633163441030267478942720703134493880117805010891574606323700178176718412858948243785754898788359757528163558061136758276299059029113119763557411729353915848889261125855717014320045292143759177464380434854573300054940683350937992500211758727939459249163046465047204851616590276724564411037216844005877918224201569391107769029955591465502737961776799311859881060956465198859727495735498887960494256488224613682478900505821893815926193600121890632" from decimal import Decimal d = Decimal(ns) one_third = Decimal("0.3333333333333333") print d ** one_third

and the answer is: 2.287391878618402702753613056E+305

TZ pointed out that this isn't accurate... and he's right. Here's my test.

from decimal import Decimal def nth_root(num_decimal, n_integer): exponent = Decimal("1.0") / Decimal(n_integer) return num_decimal ** exponent def test(): ns = "11968003966030964356885611480383408833172346450467339251196093144141045683463085291115677488411620264826942334897996389485046262847265769280883237649461122479734279424416861834396522819159219215308460065265520143082728303864638821979329804885526557893649662037092457130509980883789368448042961108430809620626059287437887495827369474189818588006905358793385574832590121472680866521970802708379837148646191567765584039175249171110593159305029014037881475265618958103073425958633163441030267478942720703134493880117805010891574606323700178176718412858948243785754898788359757528163558061136758276299059029113119763557411729353915848889261125855717014320045292143759177464380434854573300054940683350937992500211758727939459249163046465047204851616590276724564411037216844005877918224201569391107769029955591465502737961776799311859881060956465198859727495735498887960494256488224613682478900505821893815926193600121890632" nd = Decimal(ns) cube_root = nth_root(nd, 3) print (cube_root ** Decimal("3.0")) - nd if __name__ == "__main__": test()

It's off by about 10*891

Oh, for numbers that big, you would use the decimal module.

ns: your number as a string

ns = "11968003966030964356885611480383408833172346450467339251196093144141045683463085291115677488411620264826942334897996389485046262847265769280883237649461122479734279424416861834396522819159219215308460065265520143082728303864638821979329804885526557893649662037092457130509980883789368448042961108430809620626059287437887495827369474189818588006905358793385574832590121472680866521970802708379837148646191567765584039175249171110593159305029014037881475265618958103073425958633163441030267478942720703134493880117805010891574606323700178176718412858948243785754898788359757528163558061136758276299059029113119763557411729353915848889261125855717014320045292143759177464380434854573300054940683350937992500211758727939459249163046465047204851616590276724564411037216844005877918224201569391107769029955591465502737961776799311859881060956465198859727495735498887960494256488224613682478900505821893815926193600121890632" from decimal import Decimal d = Decimal(ns) one_third = Decimal("0.3333333333333333") print d ** one_third

and the answer is: 2.287391878618402702753613056E+305

Oh, for numbers that big, you would use the decimal module.

ns: your number as a string

ns = "11968003966030964356885611480383408833172346450467339251196093144141045683463085291115677488411620264826942334897996389485046262847265769280883237649461122479734279424416861834396522819159219215308460065265520143082728303864638821979329804885526557893649662037092457130509980883789368448042961108430809620626059287437887495827369474189818588006905358793385574832590121472680866521970802708379837148646191567765584039175249171110593159305029014037881475265618958103073425958633163441030267478942720703134493880117805010891574606323700178176718412858948243785754898788359757528163558061136758276299059029113119763557411729353915848889261125855717014320045292143759177464380434854573300054940683350937992500211758727939459249163046465047204851616590276724564411037216844005877918224201569391107769029955591465502737961776799311859881060956465198859727495735498887960494256488224613682478900505821893815926193600121890632" from decimal import Decimal d = Decimal(ns) one_third = Decimal("0.3333333333333333") print d ** one_third

and the answer is: 2.287391878618402702753613056E+305

TZ pointed out that this isn't accurate... and he's right. Here's my test.

from decimal import Decimal def nth_root(num_decimal, n_integer): exponent = Decimal("1.0") / Decimal(n_integer) return num_decimal ** exponent def test(): ns = "11968003966030964356885611480383408833172346450467339251196093144141045683463085291115677488411620264826942334897996389485046262847265769280883237649461122479734279424416861834396522819159219215308460065265520143082728303864638821979329804885526557893649662037092457130509980883789368448042961108430809620626059287437887495827369474189818588006905358793385574832590121472680866521970802708379837148646191567765584039175249171110593159305029014037881475265618958103073425958633163441030267478942720703134493880117805010891574606323700178176718412858948243785754898788359757528163558061136758276299059029113119763557411729353915848889261125855717014320045292143759177464380434854573300054940683350937992500211758727939459249163046465047204851616590276724564411037216844005877918224201569391107769029955591465502737961776799311859881060956465198859727495735498887960494256488224613682478900505821893815926193600121890632" nd = Decimal(ns) cube_root = nth_root(nd, 3) print (cube_root ** Decimal("3.0")) - nd if __name__ == "__main__": test()

It's off by about 10*891

Source Link
Jim Carroll
Jim Carroll
  • 2.3k
  • 17
  • 23

Oh, for numbers that big, you would use the decimal module.

ns: your number as a string

ns = "11968003966030964356885611480383408833172346450467339251196093144141045683463085291115677488411620264826942334897996389485046262847265769280883237649461122479734279424416861834396522819159219215308460065265520143082728303864638821979329804885526557893649662037092457130509980883789368448042961108430809620626059287437887495827369474189818588006905358793385574832590121472680866521970802708379837148646191567765584039175249171110593159305029014037881475265618958103073425958633163441030267478942720703134493880117805010891574606323700178176718412858948243785754898788359757528163558061136758276299059029113119763557411729353915848889261125855717014320045292143759177464380434854573300054940683350937992500211758727939459249163046465047204851616590276724564411037216844005877918224201569391107769029955591465502737961776799311859881060956465198859727495735498887960494256488224613682478900505821893815926193600121890632" from decimal import Decimal d = Decimal(ns) one_third = Decimal("0.3333333333333333") print d ** one_third

and the answer is: 2.287391878618402702753613056E+305