Log272(64) ▷ What is Log Base 272 of 64?

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

In exponential form is 272 0.74188903464221 = 64.

Table of Contents

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

Calculator

×log

Base 1

Exponent 1

Result: Result

Simply the Best Logarithm Calculator! Click To Tweet As you can see in our log calculator, log272 (64) = 0.74188903464221.

Calculate Log Base 272 of 64

To solve the equation log ₂₇₂ (64) = 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 = 64, a = 272:
log ₂₇₂ (64) = log(64) / log(272)
Evaluate the term:
log(64) / log(272)
= 1.39794000867204 / 1.92427928606188
= 0.74188903464221
= Logarithm of 64 with base 272

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

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 272 ^{0.74188903464221} = 64
272 ^{0.74188903464221} = 64 is the exponential form of log272 (64)
272 is the logarithm base of log272 (64)
64 is the argument of log272 (64)
0.74188903464221 is the exponent or power of 272 ^{0.74188903464221} = 64

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

Frequently searched terms on our site include:

FAQs

What is the value of log272 64?

Log272 (64) = 0.74188903464221.

How do you find the value of log ₂₇₂64?

Carry out the change of base logarithm operation.

What does log ₂₇₂ 64 mean?

It means the logarithm of 64 with base 272.

How do you solve log base 272 64?

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

What is the log base 272 of 64?

The value is 0.74188903464221.

How do you write log ₂₇₂ 64 in exponential form?

In exponential form is 272 ^{0.74188903464221} = 64.

What is log272 (64) equal to?

log base 272 of 64 = 0.74188903464221.

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 272 of 64 = 0.74188903464221.

You now know everything about the logarithm with base 272, argument 64 and exponent 0.74188903464221.
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 Log272 (64).

Table

Our quick conversion table is easy to use:

log ₂₇₂(x)		Value
log ₂₇₂(63.5)	=	0.740489916841
log ₂₇₂(63.51)	=	0.74051800700801
log ₂₇₂(63.52)	=	0.74054609275241
log ₂₇₂(63.53)	=	0.7405741740756
log ₂₇₂(63.54)	=	0.74060225097897
log ₂₇₂(63.55)	=	0.74063032346391
log ₂₇₂(63.56)	=	0.74065839153181
log ₂₇₂(63.57)	=	0.74068645518407
log ₂₇₂(63.58)	=	0.74071451442207
log ₂₇₂(63.59)	=	0.74074256924719
log ₂₇₂(63.6)	=	0.74077061966084
log ₂₇₂(63.61)	=	0.74079866566438
log ₂₇₂(63.62)	=	0.74082670725922
log ₂₇₂(63.63)	=	0.74085474444674
log ₂₇₂(63.64)	=	0.74088277722831
log ₂₇₂(63.65)	=	0.74091080560533
log ₂₇₂(63.66)	=	0.74093882957919
log ₂₇₂(63.67)	=	0.74096684915125
log ₂₇₂(63.68)	=	0.74099486432292
log ₂₇₂(63.69)	=	0.74102287509556
log ₂₇₂(63.7)	=	0.74105088147056
log ₂₇₂(63.71)	=	0.7410788834493
log ₂₇₂(63.72)	=	0.74110688103316
log ₂₇₂(63.73)	=	0.74113487422351
log ₂₇₂(63.74)	=	0.74116286302175
log ₂₇₂(63.75)	=	0.74119084742924
log ₂₇₂(63.76)	=	0.74121882744737
log ₂₇₂(63.77)	=	0.7412468030775
log ₂₇₂(63.78)	=	0.74127477432103
log ₂₇₂(63.79)	=	0.74130274117931
log ₂₇₂(63.8)	=	0.74133070365373
log ₂₇₂(63.81)	=	0.74135866174566
log ₂₇₂(63.82)	=	0.74138661545647
log ₂₇₂(63.83)	=	0.74141456478754
log ₂₇₂(63.84)	=	0.74144250974024
log ₂₇₂(63.85)	=	0.74147045031594
log ₂₇₂(63.86)	=	0.74149838651602
log ₂₇₂(63.87)	=	0.74152631834183
log ₂₇₂(63.88)	=	0.74155424579476
log ₂₇₂(63.89)	=	0.74158216887616
log ₂₇₂(63.9)	=	0.74161008758742
log ₂₇₂(63.91)	=	0.74163800192989
log ₂₇₂(63.92)	=	0.74166591190494
log ₂₇₂(63.93)	=	0.74169381751394
log ₂₇₂(63.94)	=	0.74172171875826
log ₂₇₂(63.95)	=	0.74174961563926
log ₂₇₂(63.96)	=	0.74177750815831
log ₂₇₂(63.97)	=	0.74180539631677
log ₂₇₂(63.98)	=	0.74183328011599
log ₂₇₂(63.99)	=	0.74186115955736
log ₂₇₂(64)	=	0.74188903464221
log ₂₇₂(64.01)	=	0.74191690537193
log ₂₇₂(64.02)	=	0.74194477174787
log ₂₇₂(64.03)	=	0.74197263377138
log ₂₇₂(64.04)	=	0.74200049144384
log ₂₇₂(64.05)	=	0.74202834476659
log ₂₇₂(64.06)	=	0.74205619374099
log ₂₇₂(64.07)	=	0.74208403836841
log ₂₇₂(64.08)	=	0.7421118786502
log ₂₇₂(64.09)	=	0.74213971458771
log ₂₇₂(64.1)	=	0.74216754618231
log ₂₇₂(64.11)	=	0.74219537343534
log ₂₇₂(64.12)	=	0.74222319634816
log ₂₇₂(64.13)	=	0.74225101492213
log ₂₇₂(64.14)	=	0.74227882915859
log ₂₇₂(64.15)	=	0.7423066390589
log ₂₇₂(64.16)	=	0.74233444462442
log ₂₇₂(64.17)	=	0.74236224585649
log ₂₇₂(64.18)	=	0.74239004275646
log ₂₇₂(64.19)	=	0.74241783532568
log ₂₇₂(64.2)	=	0.7424456235655
log ₂₇₂(64.21)	=	0.74247340747728
log ₂₇₂(64.22)	=	0.74250118706235
log ₂₇₂(64.23)	=	0.74252896232207
log ₂₇₂(64.24)	=	0.74255673325779
log ₂₇₂(64.25)	=	0.74258449987084
log ₂₇₂(64.26)	=	0.74261226216258
log ₂₇₂(64.27)	=	0.74264002013434
log ₂₇₂(64.28)	=	0.74266777378748
log ₂₇₂(64.29)	=	0.74269552312334
log ₂₇₂(64.3)	=	0.74272326814325
log ₂₇₂(64.31)	=	0.74275100884857
log ₂₇₂(64.32)	=	0.74277874524064
log ₂₇₂(64.33)	=	0.74280647732079
log ₂₇₂(64.34)	=	0.74283420509036
log ₂₇₂(64.35)	=	0.7428619285507
log ₂₇₂(64.36)	=	0.74288964770314
log ₂₇₂(64.37)	=	0.74291736254903
log ₂₇₂(64.38)	=	0.7429450730897
log ₂₇₂(64.39)	=	0.74297277932649
log ₂₇₂(64.4)	=	0.74300048126073
log ₂₇₂(64.41)	=	0.74302817889376
log ₂₇₂(64.42)	=	0.74305587222692
log ₂₇₂(64.43)	=	0.74308356126154
log ₂₇₂(64.44)	=	0.74311124599896
log ₂₇₂(64.45)	=	0.74313892644051
log ₂₇₂(64.46)	=	0.74316660258752
log ₂₇₂(64.47)	=	0.74319427444132
log ₂₇₂(64.48)	=	0.74322194200326
log ₂₇₂(64.49)	=	0.74324960527464
log ₂₇₂(64.5)	=	0.74327726425682

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 272 (64)