Log13(100) ▷ What is Log Base 13 of 100?

Q: How do you write log 13 100 in exponential form?

In exponential form is 13 1.7954234350052 = 100.

Table of Contents

Log ₁₃ (100) is the logarithm of 100 to the base 13:

Calculator

×log

Base 1

Exponent 1

Result: Result

Simply the Best Logarithm Calculator! Click To Tweet As you can see in our log calculator, log13 (100) = 1.7954234350052.

Calculate Log Base 13 of 100

To solve the equation log ₁₃ (100) = 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 = 100, a = 13:
log ₁₃ (100) = log(100) / log(13)
Evaluate the term:
log(100) / log(13)
= 1.39794000867204 / 1.92427928606188
= 1.7954234350052
= Logarithm of 100 with base 13

Here’s the logarithm of 13 to the base 100.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 13 ^{1.7954234350052} = 100
13 ^{1.7954234350052} = 100 is the exponential form of log13 (100)
13 is the logarithm base of log13 (100)
100 is the argument of log13 (100)
1.7954234350052 is the exponent or power of 13 ^{1.7954234350052} = 100

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

Frequently searched terms on our site include:

FAQs

What is the value of log13 100?

Log13 (100) = 1.7954234350052.

How do you find the value of log ₁₃100?

Carry out the change of base logarithm operation.

What does log ₁₃ 100 mean?

It means the logarithm of 100 with base 13.

How do you solve log base 13 100?

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

What is the log base 13 of 100?

The value is 1.7954234350052.

How do you write log ₁₃ 100 in exponential form?

In exponential form is 13 ^{1.7954234350052} = 100.

What is log13 (100) equal to?

log base 13 of 100 = 1.7954234350052.

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 13 of 100 = 1.7954234350052.

You now know everything about the logarithm with base 13, argument 100 and exponent 1.7954234350052.
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 Log13 (100).

Table

Our quick conversion table is easy to use:

log ₁₃(x)		Value
log ₁₃(99.5)	=	1.7934691890826
log ₁₃(99.51)	=	1.7935083701535
log ₁₃(99.52)	=	1.7935475472871
log ₁₃(99.53)	=	1.7935867204844
log ₁₃(99.54)	=	1.793625889746
log ₁₃(99.55)	=	1.7936650550728
log ₁₃(99.56)	=	1.7937042164656
log ₁₃(99.57)	=	1.7937433739251
log ₁₃(99.58)	=	1.7937825274521
log ₁₃(99.59)	=	1.7938216770475
log ₁₃(99.6)	=	1.793860822712
log ₁₃(99.61)	=	1.7938999644464
log ₁₃(99.62)	=	1.7939391022515
log ₁₃(99.63)	=	1.7939782361281
log ₁₃(99.64)	=	1.794017366077
log ₁₃(99.65)	=	1.7940564920989
log ₁₃(99.66)	=	1.7940956141947
log ₁₃(99.67)	=	1.7941347323651
log ₁₃(99.68)	=	1.794173846611
log ₁₃(99.69)	=	1.7942129569331
log ₁₃(99.7)	=	1.7942520633321
log ₁₃(99.71)	=	1.794291165809
log ₁₃(99.72)	=	1.7943302643644
log ₁₃(99.73)	=	1.7943693589992
log ₁₃(99.74)	=	1.7944084497142
log ₁₃(99.75)	=	1.7944475365101
log ₁₃(99.76)	=	1.7944866193877
log ₁₃(99.77)	=	1.7945256983478
log ₁₃(99.78)	=	1.7945647733912
log ₁₃(99.79)	=	1.7946038445187
log ₁₃(99.8)	=	1.794642911731
log ₁₃(99.81)	=	1.794681975029
log ₁₃(99.82)	=	1.7947210344134
log ₁₃(99.83)	=	1.7947600898851
log ₁₃(99.84)	=	1.7947991414447
log ₁₃(99.85)	=	1.7948381890931
log ₁₃(99.86)	=	1.7948772328311
log ₁₃(99.87)	=	1.7949162726594
log ₁₃(99.88)	=	1.7949553085789
log ₁₃(99.89)	=	1.7949943405903
log ₁₃(99.9)	=	1.7950333686943
log ₁₃(99.91)	=	1.7950723928919
log ₁₃(99.92)	=	1.7951114131837
log ₁₃(99.93)	=	1.7951504295705
log ₁₃(99.94)	=	1.7951894420532
log ₁₃(99.95)	=	1.7952284506325
log ₁₃(99.96)	=	1.7952674553091
log ₁₃(99.97)	=	1.795306456084
log ₁₃(99.98)	=	1.7953454529577
log ₁₃(99.99)	=	1.7953844459312
log ₁₃(100)	=	1.7954234350052
log ₁₃(100.01)	=	1.7954624201805
log ₁₃(100.02)	=	1.7955014014579
log ₁₃(100.03)	=	1.7955403788381
log ₁₃(100.04)	=	1.795579352322
log ₁₃(100.05)	=	1.7956183219102
log ₁₃(100.06)	=	1.7956572876036
log ₁₃(100.07)	=	1.795696249403
log ₁₃(100.08)	=	1.7957352073091
log ₁₃(100.09)	=	1.7957741613228
log ₁₃(100.1)	=	1.7958131114447
log ₁₃(100.11)	=	1.7958520576758
log ₁₃(100.12)	=	1.7958910000166
log ₁₃(100.13)	=	1.7959299384681
log ₁₃(100.14)	=	1.795968873031
log ₁₃(100.15)	=	1.7960078037061
log ₁₃(100.16)	=	1.7960467304941
log ₁₃(100.17)	=	1.7960856533959
log ₁₃(100.18)	=	1.7961245724122
log ₁₃(100.19)	=	1.7961634875437
log ₁₃(100.2)	=	1.7962023987914
log ₁₃(100.21)	=	1.7962413061558
log ₁₃(100.22)	=	1.7962802096379
log ₁₃(100.23)	=	1.7963191092383
log ₁₃(100.24)	=	1.796358004958
log ₁₃(100.25)	=	1.7963968967975
log ₁₃(100.26)	=	1.7964357847578
log ₁₃(100.27)	=	1.7964746688395
log ₁₃(100.28)	=	1.7965135490435
log ₁₃(100.29)	=	1.7965524253705
log ₁₃(100.3)	=	1.7965912978214
log ₁₃(100.31)	=	1.7966301663968
log ₁₃(100.32)	=	1.7966690310975
log ₁₃(100.33)	=	1.7967078919244
log ₁₃(100.34)	=	1.7967467488781
log ₁₃(100.35)	=	1.7967856019596
log ₁₃(100.36)	=	1.7968244511694
log ₁₃(100.37)	=	1.7968632965085
log ₁₃(100.38)	=	1.7969021379776
log ₁₃(100.39)	=	1.7969409755774
log ₁₃(100.4)	=	1.7969798093087
log ₁₃(100.41)	=	1.7970186391723
log ₁₃(100.42)	=	1.797057465169
log ₁₃(100.43)	=	1.7970962872995
log ₁₃(100.44)	=	1.7971351055646
log ₁₃(100.45)	=	1.797173919965
log ₁₃(100.46)	=	1.7972127305017
log ₁₃(100.47)	=	1.7972515371752
log ₁₃(100.48)	=	1.7972903399864
log ₁₃(100.49)	=	1.797329138936
log ₁₃(100.5)	=	1.7973679340249

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Log 13 (100)