Log27(136) ▷ What is Log Base 27 of 136?

Q: How do you write log 27 136 in exponential form?

In exponential form is 27 1.490563727959 = 136.

Table of Contents

Log ₂₇ (136) is the logarithm of 136 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 (136) = 1.490563727959.

Calculate Log Base 27 of 136

To solve the equation log ₂₇ (136) = 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 = 136, a = 27:
log ₂₇ (136) = log(136) / log(27)
Evaluate the term:
log(136) / log(27)
= 1.39794000867204 / 1.92427928606188
= 1.490563727959
= Logarithm of 136 with base 27

Here’s the logarithm of 27 to the base 136.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 27 ^{1.490563727959} = 136
27 ^{1.490563727959} = 136 is the exponential form of log27 (136)
27 is the logarithm base of log27 (136)
136 is the argument of log27 (136)
1.490563727959 is the exponent or power of 27 ^{1.490563727959} = 136

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 136?

Log27 (136) = 1.490563727959.

How do you find the value of log ₂₇136?

Carry out the change of base logarithm operation.

What does log ₂₇ 136 mean?

It means the logarithm of 136 with base 27.

How do you solve log base 27 136?

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

What is the log base 27 of 136?

The value is 1.490563727959.

How do you write log ₂₇ 136 in exponential form?

In exponential form is 27 ^{1.490563727959} = 136.

What is log27 (136) equal to?

log base 27 of 136 = 1.490563727959.

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 136 = 1.490563727959.

You now know everything about the logarithm with base 27, argument 136 and exponent 1.490563727959.
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 (136).

Table

Our quick conversion table is easy to use:

log ₂₇(x)		Value
log ₂₇(135.5)	=	1.4894461831392
log ₂₇(135.51)	=	1.4894685744219
log ₂₇(135.52)	=	1.4894909640523
log ₂₇(135.53)	=	1.4895133520305
log ₂₇(135.54)	=	1.489535738357
log ₂₇(135.55)	=	1.4895581230319
log ₂₇(135.56)	=	1.4895805060554
log ₂₇(135.57)	=	1.4896028874279
log ₂₇(135.58)	=	1.4896252671495
log ₂₇(135.59)	=	1.4896476452205
log ₂₇(135.6)	=	1.4896700216411
log ₂₇(135.61)	=	1.4896923964117
log ₂₇(135.62)	=	1.4897147695323
log ₂₇(135.63)	=	1.4897371410033
log ₂₇(135.64)	=	1.4897595108249
log ₂₇(135.65)	=	1.4897818789974
log ₂₇(135.66)	=	1.489804245521
log ₂₇(135.67)	=	1.4898266103959
log ₂₇(135.68)	=	1.4898489736225
log ₂₇(135.69)	=	1.4898713352008
log ₂₇(135.7)	=	1.4898936951312
log ₂₇(135.71)	=	1.4899160534139
log ₂₇(135.72)	=	1.4899384100492
log ₂₇(135.73)	=	1.4899607650373
log ₂₇(135.74)	=	1.4899831183784
log ₂₇(135.75)	=	1.4900054700728
log ₂₇(135.76)	=	1.4900278201207
log ₂₇(135.77)	=	1.4900501685224
log ₂₇(135.78)	=	1.4900725152781
log ₂₇(135.79)	=	1.4900948603881
log ₂₇(135.8)	=	1.4901172038526
log ₂₇(135.81)	=	1.4901395456718
log ₂₇(135.82)	=	1.490161885846
log ₂₇(135.83)	=	1.4901842243754
log ₂₇(135.84)	=	1.4902065612602
log ₂₇(135.85)	=	1.4902288965008
log ₂₇(135.86)	=	1.4902512300974
log ₂₇(135.87)	=	1.4902735620501
log ₂₇(135.88)	=	1.4902958923592
log ₂₇(135.89)	=	1.4903182210251
log ₂₇(135.9)	=	1.4903405480478
log ₂₇(135.91)	=	1.4903628734277
log ₂₇(135.92)	=	1.490385197165
log ₂₇(135.93)	=	1.49040751926
log ₂₇(135.94)	=	1.4904298397128
log ₂₇(135.95)	=	1.4904521585238
log ₂₇(135.96)	=	1.4904744756931
log ₂₇(135.97)	=	1.4904967912211
log ₂₇(135.98)	=	1.4905191051079
log ₂₇(135.99)	=	1.4905414173538
log ₂₇(136)	=	1.490563727959
log ₂₇(136.01)	=	1.4905860369238
log ₂₇(136.02)	=	1.4906083442484
log ₂₇(136.03)	=	1.490630649933
log ₂₇(136.04)	=	1.490652953978
log ₂₇(136.05)	=	1.4906752563835
log ₂₇(136.06)	=	1.4906975571498
log ₂₇(136.07)	=	1.4907198562771
log ₂₇(136.08)	=	1.4907421537657
log ₂₇(136.09)	=	1.4907644496157
log ₂₇(136.1)	=	1.4907867438276
log ₂₇(136.11)	=	1.4908090364014
log ₂₇(136.12)	=	1.4908313273374
log ₂₇(136.13)	=	1.4908536166359
log ₂₇(136.14)	=	1.4908759042971
log ₂₇(136.15)	=	1.4908981903212
log ₂₇(136.16)	=	1.4909204747085
log ₂₇(136.17)	=	1.4909427574593
log ₂₇(136.18)	=	1.4909650385737
log ₂₇(136.19)	=	1.490987318052
log ₂₇(136.2)	=	1.4910095958945
log ₂₇(136.21)	=	1.4910318721014
log ₂₇(136.22)	=	1.4910541466729
log ₂₇(136.23)	=	1.4910764196093
log ₂₇(136.24)	=	1.4910986909107
log ₂₇(136.25)	=	1.4911209605776
log ₂₇(136.26)	=	1.49114322861
log ₂₇(136.27)	=	1.4911654950082
log ₂₇(136.28)	=	1.4911877597725
log ₂₇(136.29)	=	1.4912100229032
log ₂₇(136.3)	=	1.4912322844003
log ₂₇(136.31)	=	1.4912545442643
log ₂₇(136.32)	=	1.4912768024953
log ₂₇(136.33)	=	1.4912990590935
log ₂₇(136.34)	=	1.4913213140593
log ₂₇(136.35)	=	1.4913435673928
log ₂₇(136.36)	=	1.4913658190943
log ₂₇(136.37)	=	1.491388069164
log ₂₇(136.38)	=	1.4914103176022
log ₂₇(136.39)	=	1.4914325644091
log ₂₇(136.4)	=	1.4914548095849
log ₂₇(136.41)	=	1.4914770531299
log ₂₇(136.42)	=	1.4914992950443
log ₂₇(136.43)	=	1.4915215353284
log ₂₇(136.44)	=	1.4915437739824
log ₂₇(136.45)	=	1.4915660110065
log ₂₇(136.46)	=	1.491588246401
log ₂₇(136.47)	=	1.4916104801662
log ₂₇(136.48)	=	1.4916327123021
log ₂₇(136.49)	=	1.4916549428092
log ₂₇(136.5)	=	1.4916771716876
log ₂₇(136.51)	=	1.4916993989376

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Log 27 (136)