Log28(136) ▷ What is Log Base 28 of 136?

Q: How do you write log 28 136 in exponential form?

In exponential form is 28 1.4742957314699 = 136.

Table of Contents

Log ₂₈ (136) is the logarithm of 136 to the base 28:

Calculator

×log

Base 1

Exponent 1

Result: Result

Simply the Best Logarithm Calculator! Click To Tweet As you can see in our log calculator, log28 (136) = 1.4742957314699.

Calculate Log Base 28 of 136

To solve the equation log ₂₈ (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 = 28:
log ₂₈ (136) = log(136) / log(28)
Evaluate the term:
log(136) / log(28)
= 1.39794000867204 / 1.92427928606188
= 1.4742957314699
= Logarithm of 136 with base 28

Here’s the logarithm of 28 to the base 136.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 28 ^{1.4742957314699} = 136
28 ^{1.4742957314699} = 136 is the exponential form of log28 (136)
28 is the logarithm base of log28 (136)
136 is the argument of log28 (136)
1.4742957314699 is the exponent or power of 28 ^{1.4742957314699} = 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 log28 136?

Log28 (136) = 1.4742957314699.

How do you find the value of log ₂₈136?

Carry out the change of base logarithm operation.

What does log ₂₈ 136 mean?

It means the logarithm of 136 with base 28.

How do you solve log base 28 136?

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

What is the log base 28 of 136?

The value is 1.4742957314699.

How do you write log ₂₈ 136 in exponential form?

In exponential form is 28 ^{1.4742957314699} = 136.

What is log28 (136) equal to?

log base 28 of 136 = 1.4742957314699.

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 28 of 136 = 1.4742957314699.

You now know everything about the logarithm with base 28, argument 136 and exponent 1.4742957314699.
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 Log28 (136).

Table

Our quick conversion table is easy to use:

log ₂₈(x)		Value
log ₂₈(135.5)	=	1.4731903835223
log ₂₈(135.51)	=	1.4732125304267
log ₂₈(135.52)	=	1.4732346756969
log ₂₈(135.53)	=	1.473256819333
log ₂₈(135.54)	=	1.4732789613354
log ₂₈(135.55)	=	1.4733011017042
log ₂₈(135.56)	=	1.4733232404396
log ₂₈(135.57)	=	1.473345377542
log ₂₈(135.58)	=	1.4733675130116
log ₂₈(135.59)	=	1.4733896468486
log ₂₈(135.6)	=	1.4734117790532
log ₂₈(135.61)	=	1.4734339096257
log ₂₈(135.62)	=	1.4734560385664
log ₂₈(135.63)	=	1.4734781658754
log ₂₈(135.64)	=	1.473500291553
log ₂₈(135.65)	=	1.4735224155995
log ₂₈(135.66)	=	1.4735445380151
log ₂₈(135.67)	=	1.4735666588
log ₂₈(135.68)	=	1.4735887779545
log ₂₈(135.69)	=	1.4736108954788
log ₂₈(135.7)	=	1.4736330113732
log ₂₈(135.71)	=	1.4736551256379
log ₂₈(135.72)	=	1.4736772382731
log ₂₈(135.73)	=	1.473699349279
log ₂₈(135.74)	=	1.473721458656
log ₂₈(135.75)	=	1.4737435664043
log ₂₈(135.76)	=	1.473765672524
log ₂₈(135.77)	=	1.4737877770155
log ₂₈(135.78)	=	1.473809879879
log ₂₈(135.79)	=	1.4738319811147
log ₂₈(135.8)	=	1.4738540807228
log ₂₈(135.81)	=	1.4738761787036
log ₂₈(135.82)	=	1.4738982750574
log ₂₈(135.83)	=	1.4739203697843
log ₂₈(135.84)	=	1.4739424628847
log ₂₈(135.85)	=	1.4739645543587
log ₂₈(135.86)	=	1.4739866442066
log ₂₈(135.87)	=	1.4740087324286
log ₂₈(135.88)	=	1.474030819025
log ₂₈(135.89)	=	1.474052903996
log ₂₈(135.9)	=	1.4740749873419
log ₂₈(135.91)	=	1.4740970690628
log ₂₈(135.92)	=	1.4741191491591
log ₂₈(135.93)	=	1.474141227631
log ₂₈(135.94)	=	1.4741633044786
log ₂₈(135.95)	=	1.4741853797023
log ₂₈(135.96)	=	1.4742074533023
log ₂₈(135.97)	=	1.4742295252788
log ₂₈(135.98)	=	1.4742515956321
log ₂₈(135.99)	=	1.4742736643624
log ₂₈(136)	=	1.4742957314699
log ₂₈(136.01)	=	1.4743177969549
log ₂₈(136.02)	=	1.4743398608176
log ₂₈(136.03)	=	1.4743619230583
log ₂₈(136.04)	=	1.4743839836771
log ₂₈(136.05)	=	1.4744060426744
log ₂₈(136.06)	=	1.4744281000504
log ₂₈(136.07)	=	1.4744501558052
log ₂₈(136.08)	=	1.4744722099393
log ₂₈(136.09)	=	1.4744942624527
log ₂₈(136.1)	=	1.4745163133457
log ₂₈(136.11)	=	1.4745383626186
log ₂₈(136.12)	=	1.4745604102716
log ₂₈(136.13)	=	1.4745824563049
log ₂₈(136.14)	=	1.4746045007188
log ₂₈(136.15)	=	1.4746265435135
log ₂₈(136.16)	=	1.4746485846893
log ₂₈(136.17)	=	1.4746706242463
log ₂₈(136.18)	=	1.4746926621849
log ₂₈(136.19)	=	1.4747146985053
log ₂₈(136.2)	=	1.4747367332076
log ₂₈(136.21)	=	1.4747587662922
log ₂₈(136.22)	=	1.4747807977593
log ₂₈(136.23)	=	1.474802827609
log ₂₈(136.24)	=	1.4748248558418
log ₂₈(136.25)	=	1.4748468824577
log ₂₈(136.26)	=	1.474868907457
log ₂₈(136.27)	=	1.4748909308401
log ₂₈(136.28)	=	1.474912952607
log ₂₈(136.29)	=	1.474934972758
log ₂₈(136.3)	=	1.4749569912934
log ₂₈(136.31)	=	1.4749790082135
log ₂₈(136.32)	=	1.4750010235184
log ₂₈(136.33)	=	1.4750230372084
log ₂₈(136.34)	=	1.4750450492837
log ₂₈(136.35)	=	1.4750670597445
log ₂₈(136.36)	=	1.4750890685912
log ₂₈(136.37)	=	1.4751110758239
log ₂₈(136.38)	=	1.4751330814428
log ₂₈(136.39)	=	1.4751550854483
log ₂₈(136.4)	=	1.4751770878405
log ₂₈(136.41)	=	1.4751990886197
log ₂₈(136.42)	=	1.4752210877861
log ₂₈(136.43)	=	1.47524308534
log ₂₈(136.44)	=	1.4752650812816
log ₂₈(136.45)	=	1.4752870756111
log ₂₈(136.46)	=	1.4753090683287
log ₂₈(136.47)	=	1.4753310594347
log ₂₈(136.48)	=	1.4753530489294
log ₂₈(136.49)	=	1.475375036813
log ₂₈(136.5)	=	1.4753970230856
log ₂₈(136.51)	=	1.4754190077476

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Log 28 (136)