Log64(272) ▷ What is Log Base 64 of 272?

Q: How do you write log 64 272 in exponential form?

In exponential form is 64 1.3479104735417 = 272.

Table of Contents

Log ₆₄ (272) is the logarithm of 272 to the base 64:

Calculator

×log

Base 1

Exponent 1

Result: Result

Simply the Best Logarithm Calculator! Click To Tweet As you can see in our log calculator, log64 (272) = 1.3479104735417.

Calculate Log Base 64 of 272

To solve the equation log ₆₄ (272) = 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 = 272, a = 64:
log ₆₄ (272) = log(272) / log(64)
Evaluate the term:
log(272) / log(64)
= 1.39794000867204 / 1.92427928606188
= 1.3479104735417
= Logarithm of 272 with base 64

Here’s the logarithm of 64 to the base 272.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 64 ^{1.3479104735417} = 272
64 ^{1.3479104735417} = 272 is the exponential form of log64 (272)
64 is the logarithm base of log64 (272)
272 is the argument of log64 (272)
1.3479104735417 is the exponent or power of 64 ^{1.3479104735417} = 272

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

Frequently searched terms on our site include:

FAQs

What is the value of log64 272?

Log64 (272) = 1.3479104735417.

How do you find the value of log ₆₄272?

Carry out the change of base logarithm operation.

What does log ₆₄ 272 mean?

It means the logarithm of 272 with base 64.

How do you solve log base 64 272?

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

What is the log base 64 of 272?

The value is 1.3479104735417.

How do you write log ₆₄ 272 in exponential form?

In exponential form is 64 ^{1.3479104735417} = 272.

What is log64 (272) equal to?

log base 64 of 272 = 1.3479104735417.

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 64 of 272 = 1.3479104735417.

You now know everything about the logarithm with base 64, argument 272 and exponent 1.3479104735417.
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 Log64 (272).

Table

Our quick conversion table is easy to use:

log ₆₄(x)		Value
log ₆₄(271.5)	=	1.3474680646341
log ₆₄(271.51)	=	1.3474769207941
log ₆₄(271.52)	=	1.347485776628
log ₆₄(271.53)	=	1.3474946321357
log ₆₄(271.54)	=	1.3475034873173
log ₆₄(271.55)	=	1.3475123421728
log ₆₄(271.56)	=	1.3475211967022
log ₆₄(271.57)	=	1.3475300509056
log ₆₄(271.58)	=	1.3475389047829
log ₆₄(271.59)	=	1.3475477583342
log ₆₄(271.6)	=	1.3475566115596
log ₆₄(271.61)	=	1.3475654644589
log ₆₄(271.62)	=	1.3475743170324
log ₆₄(271.63)	=	1.3475831692799
log ₆₄(271.64)	=	1.3475920212015
log ₆₄(271.65)	=	1.3476008727973
log ₆₄(271.66)	=	1.3476097240673
log ₆₄(271.67)	=	1.3476185750114
log ₆₄(271.68)	=	1.3476274256297
log ₆₄(271.69)	=	1.3476362759223
log ₆₄(271.7)	=	1.3476451258891
log ₆₄(271.71)	=	1.3476539755302
log ₆₄(271.72)	=	1.3476628248456
log ₆₄(271.73)	=	1.3476716738353
log ₆₄(271.74)	=	1.3476805224994
log ₆₄(271.75)	=	1.3476893708379
log ₆₄(271.76)	=	1.3476982188507
log ₆₄(271.77)	=	1.347707066538
log ₆₄(271.78)	=	1.3477159138998
log ₆₄(271.79)	=	1.347724760936
log ₆₄(271.8)	=	1.3477336076467
log ₆₄(271.81)	=	1.3477424540319
log ₆₄(271.82)	=	1.3477513000917
log ₆₄(271.83)	=	1.347760145826
log ₆₄(271.84)	=	1.3477689912349
log ₆₄(271.85)	=	1.3477778363185
log ₆₄(271.86)	=	1.3477866810766
log ₆₄(271.87)	=	1.3477955255095
log ₆₄(271.88)	=	1.347804369617
log ₆₄(271.89)	=	1.3478132133993
log ₆₄(271.9)	=	1.3478220568562
log ₆₄(271.91)	=	1.347830899988
log ₆₄(271.92)	=	1.3478397427945
log ₆₄(271.93)	=	1.3478485852758
log ₆₄(271.94)	=	1.347857427432
log ₆₄(271.95)	=	1.347866269263
log ₆₄(271.96)	=	1.3478751107689
log ₆₄(271.97)	=	1.3478839519497
log ₆₄(271.98)	=	1.3478927928054
log ₆₄(271.99)	=	1.3479016333361
log ₆₄(272)	=	1.3479104735417
log ₆₄(272.01)	=	1.3479193134224
log ₆₄(272.02)	=	1.347928152978
log ₆₄(272.03)	=	1.3479369922088
log ₆₄(272.04)	=	1.3479458311145
log ₆₄(272.05)	=	1.3479546696954
log ₆₄(272.06)	=	1.3479635079514
log ₆₄(272.07)	=	1.3479723458825
log ₆₄(272.08)	=	1.3479811834889
log ₆₄(272.09)	=	1.3479900207703
log ₆₄(272.1)	=	1.3479988577271
log ₆₄(272.11)	=	1.348007694359
log ₆₄(272.12)	=	1.3480165306662
log ₆₄(272.13)	=	1.3480253666487
log ₆₄(272.14)	=	1.3480342023065
log ₆₄(272.15)	=	1.3480430376396
log ₆₄(272.16)	=	1.3480518726481
log ₆₄(272.17)	=	1.348060707332
log ₆₄(272.18)	=	1.3480695416913
log ₆₄(272.19)	=	1.348078375726
log ₆₄(272.2)	=	1.3480872094361
log ₆₄(272.21)	=	1.3480960428217
log ₆₄(272.22)	=	1.3481048758829
log ₆₄(272.23)	=	1.3481137086195
log ₆₄(272.24)	=	1.3481225410317
log ₆₄(272.25)	=	1.3481313731195
log ₆₄(272.26)	=	1.3481402048828
log ₆₄(272.27)	=	1.3481490363218
log ₆₄(272.28)	=	1.3481578674365
log ₆₄(272.29)	=	1.3481666982268
log ₆₄(272.3)	=	1.3481755286927
log ₆₄(272.31)	=	1.3481843588344
log ₆₄(272.32)	=	1.3481931886519
log ₆₄(272.33)	=	1.3482020181451
log ₆₄(272.34)	=	1.3482108473141
log ₆₄(272.35)	=	1.3482196761588
log ₆₄(272.36)	=	1.3482285046795
log ₆₄(272.37)	=	1.348237332876
log ₆₄(272.38)	=	1.3482461607483
log ₆₄(272.39)	=	1.3482549882966
log ₆₄(272.4)	=	1.3482638155208
log ₆₄(272.41)	=	1.3482726424209
log ₆₄(272.42)	=	1.3482814689971
log ₆₄(272.43)	=	1.3482902952492
log ₆₄(272.44)	=	1.3482991211773
log ₆₄(272.45)	=	1.3483079467815
log ₆₄(272.46)	=	1.3483167720618
log ₆₄(272.47)	=	1.3483255970182
log ₆₄(272.48)	=	1.3483344216506
log ₆₄(272.49)	=	1.3483432459593
log ₆₄(272.5)	=	1.348352069944
log ₆₄(272.51)	=	1.348360893605

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Log 64 (272)