Log12(148) ▷ What is Log Base 12 of 148?

Q: How do you write log 12 148 in exponential form?

In exponential form is 12 2.011026158343 = 148.

Table of Contents

Log ₁₂ (148) is the logarithm of 148 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 (148) = 2.011026158343.

Calculate Log Base 12 of 148

To solve the equation log ₁₂ (148) = 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 = 148, a = 12:
log ₁₂ (148) = log(148) / log(12)
Evaluate the term:
log(148) / log(12)
= 1.39794000867204 / 1.92427928606188
= 2.011026158343
= Logarithm of 148 with base 12

Here’s the logarithm of 12 to the base 148.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 12 ^{2.011026158343} = 148
12 ^{2.011026158343} = 148 is the exponential form of log12 (148)
12 is the logarithm base of log12 (148)
148 is the argument of log12 (148)
2.011026158343 is the exponent or power of 12 ^{2.011026158343} = 148

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 148?

Log12 (148) = 2.011026158343.

How do you find the value of log ₁₂148?

Carry out the change of base logarithm operation.

What does log ₁₂ 148 mean?

It means the logarithm of 148 with base 12.

How do you solve log base 12 148?

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

What is the log base 12 of 148?

The value is 2.011026158343.

How do you write log ₁₂ 148 in exponential form?

In exponential form is 12 ^{2.011026158343} = 148.

What is log12 (148) equal to?

log base 12 of 148 = 2.011026158343.

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 148 = 2.011026158343.

You now know everything about the logarithm with base 12, argument 148 and exponent 2.011026158343.
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 (148).

Table

Our quick conversion table is easy to use:

log ₁₂(x)		Value
log ₁₂(147.5)	=	2.00966429713
log ₁₂(147.51)	=	2.0096915795682
log ₁₂(147.52)	=	2.0097188601569
log ₁₂(147.53)	=	2.0097461388964
log ₁₂(147.54)	=	2.009773415787
log ₁₂(147.55)	=	2.0098006908288
log ₁₂(147.56)	=	2.0098279640221
log ₁₂(147.57)	=	2.0098552353673
log ₁₂(147.58)	=	2.0098825048644
log ₁₂(147.59)	=	2.0099097725139
log ₁₂(147.6)	=	2.0099370383159
log ₁₂(147.61)	=	2.0099643022707
log ₁₂(147.62)	=	2.0099915643785
log ₁₂(147.63)	=	2.0100188246396
log ₁₂(147.64)	=	2.0100460830542
log ₁₂(147.65)	=	2.0100733396227
log ₁₂(147.66)	=	2.0101005943451
log ₁₂(147.67)	=	2.0101278472219
log ₁₂(147.68)	=	2.0101550982532
log ₁₂(147.69)	=	2.0101823474392
log ₁₂(147.7)	=	2.0102095947803
log ₁₂(147.71)	=	2.0102368402767
log ₁₂(147.72)	=	2.0102640839287
log ₁₂(147.73)	=	2.0102913257364
log ₁₂(147.74)	=	2.0103185657002
log ₁₂(147.75)	=	2.0103458038202
log ₁₂(147.76)	=	2.0103730400968
log ₁₂(147.77)	=	2.0104002745301
log ₁₂(147.78)	=	2.0104275071205
log ₁₂(147.79)	=	2.0104547378682
log ₁₂(147.8)	=	2.0104819667734
log ₁₂(147.81)	=	2.0105091938364
log ₁₂(147.82)	=	2.0105364190574
log ₁₂(147.83)	=	2.0105636424367
log ₁₂(147.84)	=	2.0105908639746
log ₁₂(147.85)	=	2.0106180836712
log ₁₂(147.86)	=	2.0106453015268
log ₁₂(147.87)	=	2.0106725175417
log ₁₂(147.88)	=	2.0106997317162
log ₁₂(147.89)	=	2.0107269440504
log ₁₂(147.9)	=	2.0107541545446
log ₁₂(147.91)	=	2.0107813631991
log ₁₂(147.92)	=	2.0108085700142
log ₁₂(147.93)	=	2.01083577499
log ₁₂(147.94)	=	2.0108629781268
log ₁₂(147.95)	=	2.0108901794249
log ₁₂(147.96)	=	2.0109173788845
log ₁₂(147.97)	=	2.0109445765058
log ₁₂(147.98)	=	2.0109717722892
log ₁₂(147.99)	=	2.0109989662348
log ₁₂(148)	=	2.011026158343
log ₁₂(148.01)	=	2.0110533486139
log ₁₂(148.02)	=	2.0110805370478
log ₁₂(148.03)	=	2.011107723645
log ₁₂(148.04)	=	2.0111349084056
log ₁₂(148.05)	=	2.0111620913301
log ₁₂(148.06)	=	2.0111892724185
log ₁₂(148.07)	=	2.0112164516711
log ₁₂(148.08)	=	2.0112436290883
log ₁₂(148.09)	=	2.0112708046702
log ₁₂(148.1)	=	2.0112979784171
log ₁₂(148.11)	=	2.0113251503292
log ₁₂(148.12)	=	2.0113523204068
log ₁₂(148.13)	=	2.0113794886502
log ₁₂(148.14)	=	2.0114066550595
log ₁₂(148.15)	=	2.011433819635
log ₁₂(148.16)	=	2.0114609823771
log ₁₂(148.17)	=	2.0114881432858
log ₁₂(148.18)	=	2.0115153023615
log ₁₂(148.19)	=	2.0115424596045
log ₁₂(148.2)	=	2.0115696150149
log ₁₂(148.21)	=	2.011596768593
log ₁₂(148.22)	=	2.0116239203391
log ₁₂(148.23)	=	2.0116510702534
log ₁₂(148.24)	=	2.0116782183361
log ₁₂(148.25)	=	2.0117053645876
log ₁₂(148.26)	=	2.011732509008
log ₁₂(148.27)	=	2.0117596515975
log ₁₂(148.28)	=	2.0117867923566
log ₁₂(148.29)	=	2.0118139312853
log ₁₂(148.3)	=	2.011841068384
log ₁₂(148.31)	=	2.0118682036528
log ₁₂(148.32)	=	2.0118953370921
log ₁₂(148.33)	=	2.011922468702
log ₁₂(148.34)	=	2.0119495984829
log ₁₂(148.35)	=	2.0119767264349
log ₁₂(148.36)	=	2.0120038525584
log ₁₂(148.37)	=	2.0120309768535
log ₁₂(148.38)	=	2.0120580993205
log ₁₂(148.39)	=	2.0120852199597
log ₁₂(148.4)	=	2.0121123387713
log ₁₂(148.41)	=	2.0121394557555
log ₁₂(148.42)	=	2.0121665709127
log ₁₂(148.43)	=	2.0121936842429
log ₁₂(148.44)	=	2.0122207957466
log ₁₂(148.45)	=	2.0122479054239
log ₁₂(148.46)	=	2.012275013275
log ₁₂(148.47)	=	2.0123021193003
log ₁₂(148.48)	=	2.0123292235
log ₁₂(148.49)	=	2.0123563258743
log ₁₂(148.5)	=	2.0123834264234
log ₁₂(148.51)	=	2.0124105251477

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Log 12 (148)