Log12(107) ▷ What is Log Base 12 of 107?

Q: How do you write log 12 107 in exponential form?

In exponential form is 12 1.8804846591966 = 107.

Table of Contents

Log ₁₂ (107) is the logarithm of 107 to the base 12:

Calculator

×log

Base 1

Exponent 1

Result: Result

Simply the Best Logarithm Calculator! Click To Tweet As you can see in our log calculator, log12 (107) = 1.8804846591966.

Calculate Log Base 12 of 107

To solve the equation log ₁₂ (107) = 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 = 107, a = 12:
log ₁₂ (107) = log(107) / log(12)
Evaluate the term:
log(107) / log(12)
= 1.39794000867204 / 1.92427928606188
= 1.8804846591966
= Logarithm of 107 with base 12

Here’s the logarithm of 12 to the base 107.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 12 ^{1.8804846591966} = 107
12 ^{1.8804846591966} = 107 is the exponential form of log12 (107)
12 is the logarithm base of log12 (107)
107 is the argument of log12 (107)
1.8804846591966 is the exponent or power of 12 ^{1.8804846591966} = 107

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

Frequently searched terms on our site include:

FAQs

What is the value of log12 107?

Log12 (107) = 1.8804846591966.

How do you find the value of log ₁₂107?

Carry out the change of base logarithm operation.

What does log ₁₂ 107 mean?

It means the logarithm of 107 with base 12.

How do you solve log base 12 107?

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

What is the log base 12 of 107?

The value is 1.8804846591966.

How do you write log ₁₂ 107 in exponential form?

In exponential form is 12 ^{1.8804846591966} = 107.

What is log12 (107) equal to?

log base 12 of 107 = 1.8804846591966.

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 12 of 107 = 1.8804846591966.

You now know everything about the logarithm with base 12, argument 107 and exponent 1.8804846591966.
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 Log12 (107).

Table

Our quick conversion table is easy to use:

log ₁₂(x)		Value
log ₁₂(106.5)	=	1.8785997395708
log ₁₂(106.51)	=	1.8786375246142
log ₁₂(106.52)	=	1.8786753061102
log ₁₂(106.53)	=	1.8787130840595
log ₁₂(106.54)	=	1.8787508584627
log ₁₂(106.55)	=	1.8787886293205
log ₁₂(106.56)	=	1.8788263966336
log ₁₂(106.57)	=	1.8788641604026
log ₁₂(106.58)	=	1.8789019206283
log ₁₂(106.59)	=	1.8789396773112
log ₁₂(106.6)	=	1.878977430452
log ₁₂(106.61)	=	1.8790151800514
log ₁₂(106.62)	=	1.8790529261101
log ₁₂(106.63)	=	1.8790906686287
log ₁₂(106.64)	=	1.8791284076079
log ₁₂(106.65)	=	1.8791661430484
log ₁₂(106.66)	=	1.8792038749507
log ₁₂(106.67)	=	1.8792416033157
log ₁₂(106.68)	=	1.8792793281439
log ₁₂(106.69)	=	1.879317049436
log ₁₂(106.7)	=	1.8793547671926
log ₁₂(106.71)	=	1.8793924814145
log ₁₂(106.72)	=	1.8794301921023
log ₁₂(106.73)	=	1.8794678992566
log ₁₂(106.74)	=	1.8795056028782
log ₁₂(106.75)	=	1.8795433029676
log ₁₂(106.76)	=	1.8795809995256
log ₁₂(106.77)	=	1.8796186925528
log ₁₂(106.78)	=	1.8796563820498
log ₁₂(106.79)	=	1.8796940680174
log ₁₂(106.8)	=	1.8797317504561
log ₁₂(106.81)	=	1.8797694293667
log ₁₂(106.82)	=	1.8798071047498
log ₁₂(106.83)	=	1.8798447766061
log ₁₂(106.84)	=	1.8798824449362
log ₁₂(106.85)	=	1.8799201097408
log ₁₂(106.86)	=	1.8799577710206
log ₁₂(106.87)	=	1.8799954287761
log ₁₂(106.88)	=	1.8800330830081
log ₁₂(106.89)	=	1.8800707337173
log ₁₂(106.9)	=	1.8801083809042
log ₁₂(106.91)	=	1.8801460245696
log ₁₂(106.92)	=	1.8801836647141
log ₁₂(106.93)	=	1.8802213013383
log ₁₂(106.94)	=	1.880258934443
log ₁₂(106.95)	=	1.8802965640287
log ₁₂(106.96)	=	1.8803341900962
log ₁₂(106.97)	=	1.880371812646
log ₁₂(106.98)	=	1.880409431679
log ₁₂(106.99)	=	1.8804470471956
log ₁₂(107)	=	1.8804846591966
log ₁₂(107.01)	=	1.8805222676826
log ₁₂(107.02)	=	1.8805598726543
log ₁₂(107.03)	=	1.8805974741123
log ₁₂(107.04)	=	1.8806350720574
log ₁₂(107.05)	=	1.8806726664901
log ₁₂(107.06)	=	1.8807102574111
log ₁₂(107.07)	=	1.880747844821
log ₁₂(107.08)	=	1.8807854287206
log ₁₂(107.09)	=	1.8808230091104
log ₁₂(107.1)	=	1.8808605859912
log ₁₂(107.11)	=	1.8808981593636
log ₁₂(107.12)	=	1.8809357292282
log ₁₂(107.13)	=	1.8809732955857
log ₁₂(107.14)	=	1.8810108584367
log ₁₂(107.15)	=	1.881048417782
log ₁₂(107.16)	=	1.8810859736221
log ₁₂(107.17)	=	1.8811235259577
log ₁₂(107.18)	=	1.8811610747895
log ₁₂(107.19)	=	1.8811986201181
log ₁₂(107.2)	=	1.8812361619442
log ₁₂(107.21)	=	1.8812737002684
log ₁₂(107.22)	=	1.8813112350914
log ₁₂(107.23)	=	1.8813487664138
log ₁₂(107.24)	=	1.8813862942363
log ₁₂(107.25)	=	1.8814238185595
log ₁₂(107.26)	=	1.8814613393842
log ₁₂(107.27)	=	1.8814988567109
log ₁₂(107.28)	=	1.8815363705402
log ₁₂(107.29)	=	1.881573880873
log ₁₂(107.3)	=	1.8816113877097
log ₁₂(107.31)	=	1.8816488910511
log ₁₂(107.32)	=	1.8816863908978
log ₁₂(107.33)	=	1.8817238872504
log ₁₂(107.34)	=	1.8817613801096
log ₁₂(107.35)	=	1.8817988694761
log ₁₂(107.36)	=	1.8818363553505
log ₁₂(107.37)	=	1.8818738377335
log ₁₂(107.38)	=	1.8819113166257
log ₁₂(107.39)	=	1.8819487920277
log ₁₂(107.4)	=	1.8819862639402
log ₁₂(107.41)	=	1.8820237323639
log ₁₂(107.42)	=	1.8820611972994
log ₁₂(107.43)	=	1.8820986587474
log ₁₂(107.44)	=	1.8821361167084
log ₁₂(107.45)	=	1.8821735711833
log ₁₂(107.46)	=	1.8822110221725
log ₁₂(107.47)	=	1.8822484696768
log ₁₂(107.48)	=	1.8822859136967
log ₁₂(107.49)	=	1.8823233542331
log ₁₂(107.5)	=	1.8823607912864

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Log 12 (107)