Log127(16) ▷ What is Log Base 127 of 16?

Q: How do you write log 127 16 in exponential form?

In exponential form is 127 0.57235376601995 = 16.

Table of Contents

Log ₁₂₇ (16) is the logarithm of 16 to the base 127:

Calculator

×log

Base 1

Exponent 1

Result: Result

Simply the Best Logarithm Calculator! Click To Tweet As you can see in our log calculator, log127 (16) = 0.57235376601995.

Calculate Log Base 127 of 16

To solve the equation log ₁₂₇ (16) = 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 = 16, a = 127:
log ₁₂₇ (16) = log(16) / log(127)
Evaluate the term:
log(16) / log(127)
= 1.39794000867204 / 1.92427928606188
= 0.57235376601995
= Logarithm of 16 with base 127

Here’s the logarithm of 127 to the base 16.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 127 ^{0.57235376601995} = 16
127 ^{0.57235376601995} = 16 is the exponential form of log127 (16)
127 is the logarithm base of log127 (16)
16 is the argument of log127 (16)
0.57235376601995 is the exponent or power of 127 ^{0.57235376601995} = 16

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

Frequently searched terms on our site include:

FAQs

What is the value of log127 16?

Log127 (16) = 0.57235376601995.

How do you find the value of log ₁₂₇16?

Carry out the change of base logarithm operation.

What does log ₁₂₇ 16 mean?

It means the logarithm of 16 with base 127.

How do you solve log base 127 16?

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

What is the log base 127 of 16?

The value is 0.57235376601995.

How do you write log ₁₂₇ 16 in exponential form?

In exponential form is 127 ^{0.57235376601995} = 16.

What is log127 (16) equal to?

log base 127 of 16 = 0.57235376601995.

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 127 of 16 = 0.57235376601995.

You now know everything about the logarithm with base 127, argument 16 and exponent 0.57235376601995.
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 Log127 (16).

Table

Our quick conversion table is easy to use:

log ₁₂₇(x)		Value
log ₁₂₇(15.5)	=	0.56579978745803
log ₁₂₇(15.51)	=	0.56593292708533
log ₁₂₇(15.52)	=	0.56606598089913
log ₁₂₇(15.53)	=	0.56619894900999
log ₁₂₇(15.54)	=	0.56633183152823
log ₁₂₇(15.55)	=	0.56646462856399
log ₁₂₇(15.56)	=	0.56659734022717
log ₁₂₇(15.57)	=	0.56672996662747
log ₁₂₇(15.58)	=	0.56686250787438
log ₁₂₇(15.59)	=	0.56699496407717
log ₁₂₇(15.6)	=	0.56712733534491
log ₁₂₇(15.61)	=	0.56725962178646
log ₁₂₇(15.62)	=	0.56739182351046
log ₁₂₇(15.63)	=	0.56752394062534
log ₁₂₇(15.64)	=	0.56765597323935
log ₁₂₇(15.65)	=	0.56778792146051
log ₁₂₇(15.66)	=	0.56791978539662
log ₁₂₇(15.67)	=	0.56805156515531
log ₁₂₇(15.68)	=	0.56818326084396
log ₁₂₇(15.69)	=	0.56831487256979
log ₁₂₇(15.7)	=	0.56844640043978
log ₁₂₇(15.71)	=	0.56857784456073
log ₁₂₇(15.72)	=	0.56870920503921
log ₁₂₇(15.73)	=	0.56884048198161
log ₁₂₇(15.74)	=	0.56897167549411
log ₁₂₇(15.75)	=	0.56910278568268
log ₁₂₇(15.76)	=	0.5692338126531
log ₁₂₇(15.77)	=	0.56936475651094
log ₁₂₇(15.78)	=	0.56949561736158
log ₁₂₇(15.79)	=	0.56962639531018
log ₁₂₇(15.8)	=	0.56975709046173
log ₁₂₇(15.81)	=	0.56988770292098
log ₁₂₇(15.82)	=	0.57001823279253
log ₁₂₇(15.83)	=	0.57014868018073
log ₁₂₇(15.84)	=	0.57027904518978
log ₁₂₇(15.85)	=	0.57040932792365
log ₁₂₇(15.86)	=	0.57053952848613
log ₁₂₇(15.87)	=	0.57066964698081
log ₁₂₇(15.88)	=	0.57079968351107
log ₁₂₇(15.89)	=	0.57092963818012
log ₁₂₇(15.9)	=	0.57105951109096
log ₁₂₇(15.91)	=	0.57118930234639
log ₁₂₇(15.92)	=	0.57131901204904
log ₁₂₇(15.93)	=	0.57144864030132
log ₁₂₇(15.94)	=	0.57157818720545
log ₁₂₇(15.95)	=	0.57170765286349
log ₁₂₇(15.96)	=	0.57183703737726
log ₁₂₇(15.97)	=	0.57196634084843
log ₁₂₇(15.98)	=	0.57209556337845
log ₁₂₇(15.99)	=	0.57222470506859
log ₁₂₇(16)	=	0.57235376601995
log ₁₂₇(16.01)	=	0.5724827463334
log ₁₂₇(16.02)	=	0.57261164610966
log ₁₂₇(16.03)	=	0.57274046544923
log ₁₂₇(16.04)	=	0.57286920445245
log ₁₂₇(16.05)	=	0.57299786321945
log ₁₂₇(16.06)	=	0.57312644185018
log ₁₂₇(16.07)	=	0.57325494044441
log ₁₂₇(16.08)	=	0.57338335910172
log ₁₂₇(16.09)	=	0.5735116979215
log ₁₂₇(16.1)	=	0.57363995700296
log ₁₂₇(16.11)	=	0.57376813644512
log ₁₂₇(16.12)	=	0.57389623634683
log ₁₂₇(16.13)	=	0.57402425680672
log ₁₂₇(16.14)	=	0.57415219792329
log ₁₂₇(16.15)	=	0.57428005979481
log ₁₂₇(16.16)	=	0.57440784251939
log ₁₂₇(16.17)	=	0.57453554619495
log ₁₂₇(16.18)	=	0.57466317091924
log ₁₂₇(16.19)	=	0.57479071678982
log ₁₂₇(16.2)	=	0.57491818390407
log ₁₂₇(16.21)	=	0.57504557235919
log ₁₂₇(16.22)	=	0.5751728822522
log ₁₂₇(16.23)	=	0.57530011367994
log ₁₂₇(16.24)	=	0.57542726673906
log ₁₂₇(16.25)	=	0.57555434152607
log ₁₂₇(16.26)	=	0.57568133813725
log ₁₂₇(16.27)	=	0.57580825666874
log ₁₂₇(16.28)	=	0.57593509721649
log ₁₂₇(16.29)	=	0.57606185987627
log ₁₂₇(16.3)	=	0.57618854474368
log ₁₂₇(16.31)	=	0.57631515191415
log ₁₂₇(16.32)	=	0.5764416814829
log ₁₂₇(16.33)	=	0.57656813354503
log ₁₂₇(16.34)	=	0.57669450819542
log ₁₂₇(16.35)	=	0.5768208055288
log ₁₂₇(16.36)	=	0.57694702563972
log ₁₂₇(16.37)	=	0.57707316862254
log ₁₂₇(16.38)	=	0.57719923457148
log ₁₂₇(16.39)	=	0.57732522358055
log ₁₂₇(16.4)	=	0.57745113574363
log ₁₂₇(16.41)	=	0.5775769711544
log ₁₂₇(16.42)	=	0.57770272990636
log ₁₂₇(16.43)	=	0.57782841209288
log ₁₂₇(16.44)	=	0.57795401780711
log ₁₂₇(16.45)	=	0.57807954714206
log ₁₂₇(16.46)	=	0.57820500019057
log ₁₂₇(16.47)	=	0.5783303770453
log ₁₂₇(16.48)	=	0.57845567779874
log ₁₂₇(16.49)	=	0.57858090254324
log ₁₂₇(16.5)	=	0.57870605137094

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Log 127 (16)