Log27(82) ▷ What is Log Base 27 of 82?

Q: How do you write log 27 82 in exponential form?

In exponential form is 27 1.3370562398638 = 82.

Table of Contents

Log ₂₇ (82) is the logarithm of 82 to the base 27:

Calculator

×log

Base 1

Exponent 1

Result: Result

Simply the Best Logarithm Calculator! Click To Tweet As you can see in our log calculator, log27 (82) = 1.3370562398638.

Calculate Log Base 27 of 82

To solve the equation log ₂₇ (82) = x carry out the following steps.

Apply the change of base rule:
log _a (x) = log _b (x) / log _b (a)
With b = 10:
log _a (x) = log(x) / log(a)
Substitute the variables:
With x = 82, a = 27:
log ₂₇ (82) = log(82) / log(27)
Evaluate the term:
log(82) / log(27)
= 1.39794000867204 / 1.92427928606188
= 1.3370562398638
= Logarithm of 82 with base 27

Here’s the logarithm of 27 to the base 82.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 27 ^{1.3370562398638} = 82
27 ^{1.3370562398638} = 82 is the exponential form of log27 (82)
27 is the logarithm base of log27 (82)
82 is the argument of log27 (82)
1.3370562398638 is the exponent or power of 27 ^{1.3370562398638} = 82

BTW: Logarithmic equations have many uses in various contexts in science.

Frequently searched terms on our site include:

FAQs

What is the value of log27 82?

Log27 (82) = 1.3370562398638.

How do you find the value of log ₂₇82?

Carry out the change of base logarithm operation.

What does log ₂₇ 82 mean?

It means the logarithm of 82 with base 27.

How do you solve log base 27 82?

Apply the change of base rule, substitute the variables, and evaluate the term.

What is the log base 27 of 82?

The value is 1.3370562398638.

How do you write log ₂₇ 82 in exponential form?

In exponential form is 27 ^{1.3370562398638} = 82.

What is log27 (82) equal to?

log base 27 of 82 = 1.3370562398638.

For further questions about the logarithm equation, common logarithms, the exponential function or the exponential equation fill in the form at the bottom.

Summary

In conclusion, log base 27 of 82 = 1.3370562398638.

You now know everything about the logarithm with base 27, argument 82 and exponent 1.3370562398638.
Further information, particularly about the binary logarithm, natural logarithm and decadic logarithm can be located in our article logarithm.

Besides the types of logarithms, there, we also shed a light on the terms on the properties of logarithms and the logarithm function, just to name a few.
Thanks for visiting Log27 (82).

Table

Our quick conversion table is easy to use:

log ₂₇(x)		Value
log ₂₇(81.5)	=	1.3352004966137
log ₂₇(81.51)	=	1.3352377229282
log ₂₇(81.52)	=	1.3352749446758
log ₂₇(81.53)	=	1.3353121618578
log ₂₇(81.54)	=	1.3353493744752
log ₂₇(81.55)	=	1.3353865825291
log ₂₇(81.56)	=	1.3354237860207
log ₂₇(81.57)	=	1.3354609849512
log ₂₇(81.58)	=	1.3354981793215
log ₂₇(81.59)	=	1.3355353691328
log ₂₇(81.6)	=	1.3355725543863
log ₂₇(81.61)	=	1.3356097350831
log ₂₇(81.62)	=	1.3356469112242
log ₂₇(81.63)	=	1.3356840828109
log ₂₇(81.64)	=	1.3357212498441
log ₂₇(81.65)	=	1.3357584123251
log ₂₇(81.66)	=	1.3357955702549
log ₂₇(81.67)	=	1.3358327236347
log ₂₇(81.68)	=	1.3358698724655
log ₂₇(81.69)	=	1.3359070167486
log ₂₇(81.7)	=	1.3359441564849
log ₂₇(81.71)	=	1.3359812916756
log ₂₇(81.72)	=	1.3360184223219
log ₂₇(81.73)	=	1.3360555484248
log ₂₇(81.74)	=	1.3360926699854
log ₂₇(81.75)	=	1.3361297870049
log ₂₇(81.76)	=	1.3361668994844
log ₂₇(81.77)	=	1.336204007425
log ₂₇(81.78)	=	1.3362411108277
log ₂₇(81.79)	=	1.3362782096937
log ₂₇(81.8)	=	1.3363153040242
log ₂₇(81.81)	=	1.3363523938202
log ₂₇(81.82)	=	1.3363894790828
log ₂₇(81.83)	=	1.3364265598131
log ₂₇(81.84)	=	1.3364636360123
log ₂₇(81.85)	=	1.3365007076814
log ₂₇(81.86)	=	1.3365377748216
log ₂₇(81.87)	=	1.3365748374339
log ₂₇(81.88)	=	1.3366118955195
log ₂₇(81.89)	=	1.3366489490795
log ₂₇(81.9)	=	1.3366859981149
log ₂₇(81.91)	=	1.336723042627
log ₂₇(81.92)	=	1.3367600826167
log ₂₇(81.93)	=	1.3367971180853
log ₂₇(81.94)	=	1.3368341490337
log ₂₇(81.95)	=	1.3368711754631
log ₂₇(81.96)	=	1.3369081973746
log ₂₇(81.97)	=	1.3369452147694
log ₂₇(81.98)	=	1.3369822276484
log ₂₇(81.99)	=	1.3370192360128
log ₂₇(82)	=	1.3370562398638
log ₂₇(82.01)	=	1.3370932392024
log ₂₇(82.02)	=	1.3371302340296
log ₂₇(82.03)	=	1.3371672243467
log ₂₇(82.04)	=	1.3372042101547
log ₂₇(82.05)	=	1.3372411914547
log ₂₇(82.06)	=	1.3372781682479
log ₂₇(82.07)	=	1.3373151405352
log ₂₇(82.08)	=	1.3373521083178
log ₂₇(82.09)	=	1.3373890715968
log ₂₇(82.1)	=	1.3374260303734
log ₂₇(82.11)	=	1.3374629846485
log ₂₇(82.12)	=	1.3374999344233
log ₂₇(82.13)	=	1.3375368796989
log ₂₇(82.14)	=	1.3375738204764
log ₂₇(82.15)	=	1.3376107567569
log ₂₇(82.16)	=	1.3376476885414
log ₂₇(82.17)	=	1.3376846158311
log ₂₇(82.18)	=	1.3377215386271
log ₂₇(82.19)	=	1.3377584569304
log ₂₇(82.2)	=	1.3377953707422
log ₂₇(82.21)	=	1.3378322800635
log ₂₇(82.22)	=	1.3378691848955
log ₂₇(82.23)	=	1.3379060852392
log ₂₇(82.24)	=	1.3379429810957
log ₂₇(82.25)	=	1.3379798724661
log ₂₇(82.26)	=	1.3380167593515
log ₂₇(82.27)	=	1.338053641753
log ₂₇(82.28)	=	1.3380905196717
log ₂₇(82.29)	=	1.3381273931086
log ₂₇(82.3)	=	1.3381642620649
log ₂₇(82.31)	=	1.3382011265417
log ₂₇(82.32)	=	1.33823798654
log ₂₇(82.33)	=	1.3382748420609
log ₂₇(82.34)	=	1.3383116931055
log ₂₇(82.35)	=	1.3383485396749
log ₂₇(82.36)	=	1.3383853817702
log ₂₇(82.37)	=	1.3384222193925
log ₂₇(82.38)	=	1.3384590525428
log ₂₇(82.39)	=	1.3384958812223
log ₂₇(82.4)	=	1.338532705432
log ₂₇(82.41)	=	1.3385695251731
log ₂₇(82.42)	=	1.3386063404465
log ₂₇(82.43)	=	1.3386431512534
log ₂₇(82.44)	=	1.3386799575949
log ₂₇(82.45)	=	1.338716759472
log ₂₇(82.46)	=	1.3387535568858
log ₂₇(82.47)	=	1.3387903498375
log ₂₇(82.480000000001)	=	1.3388271383281
log ₂₇(82.490000000001)	=	1.3388639223586
log ₂₇(82.500000000001)	=	1.3389007019302

Base 2 Logarithm Quiz

Take our free base 2 logarithm quiz practice to test your knowledge of the binary logarithm.

Take Base 2 Logarithm Quiz Now!

Log 27 (82)