Log50(238) ▷ What is Log Base 50 of 238?

Q: How do you write log 50 238 in exponential form?

In exponential form is 50 1.398833970577 = 238.

Table of Contents

Log ₅₀ (238) is the logarithm of 238 to the base 50:

Calculator

×log

Base 1

Exponent 1

Result: Result

Simply the Best Logarithm Calculator! Click To Tweet As you can see in our log calculator, log50 (238) = 1.398833970577.

Calculate Log Base 50 of 238

To solve the equation log ₅₀ (238) = 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 = 238, a = 50:
log ₅₀ (238) = log(238) / log(50)
Evaluate the term:
log(238) / log(50)
= 1.39794000867204 / 1.92427928606188
= 1.398833970577
= Logarithm of 238 with base 50

Here’s the logarithm of 50 to the base 238.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 50 ^{1.398833970577} = 238
50 ^{1.398833970577} = 238 is the exponential form of log50 (238)
50 is the logarithm base of log50 (238)
238 is the argument of log50 (238)
1.398833970577 is the exponent or power of 50 ^{1.398833970577} = 238

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

Frequently searched terms on our site include:

FAQs

What is the value of log50 238?

Log50 (238) = 1.398833970577.

How do you find the value of log ₅₀238?

Carry out the change of base logarithm operation.

What does log ₅₀ 238 mean?

It means the logarithm of 238 with base 50.

How do you solve log base 50 238?

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

What is the log base 50 of 238?

The value is 1.398833970577.

How do you write log ₅₀ 238 in exponential form?

In exponential form is 50 ^{1.398833970577} = 238.

What is log50 (238) equal to?

log base 50 of 238 = 1.398833970577.

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 50 of 238 = 1.398833970577.

You now know everything about the logarithm with base 50, argument 238 and exponent 1.398833970577.
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 Log50 (238).

Table

Our quick conversion table is easy to use:

log ₅₀(x)		Value
log ₅₀(237.5)	=	1.3982963842198
log ₅₀(237.51)	=	1.398307147034
log ₅₀(237.52)	=	1.398317909395
log ₅₀(237.53)	=	1.398328671303
log ₅₀(237.54)	=	1.3983394327579
log ₅₀(237.55)	=	1.3983501937597
log ₅₀(237.56)	=	1.3983609543086
log ₅₀(237.57)	=	1.3983717144045
log ₅₀(237.58)	=	1.3983824740475
log ₅₀(237.59)	=	1.3983932332376
log ₅₀(237.6)	=	1.3984039919749
log ₅₀(237.61)	=	1.3984147502594
log ₅₀(237.62)	=	1.3984255080912
log ₅₀(237.63)	=	1.3984362654702
log ₅₀(237.64)	=	1.3984470223965
log ₅₀(237.65)	=	1.3984577788702
log ₅₀(237.66)	=	1.3984685348912
log ₅₀(237.67)	=	1.3984792904597
log ₅₀(237.68)	=	1.3984900455757
log ₅₀(237.69)	=	1.3985008002392
log ₅₀(237.7)	=	1.3985115544502
log ₅₀(237.71)	=	1.3985223082088
log ₅₀(237.72)	=	1.398533061515
log ₅₀(237.73)	=	1.3985438143689
log ₅₀(237.74)	=	1.3985545667704
log ₅₀(237.75)	=	1.3985653187197
log ₅₀(237.76)	=	1.3985760702168
log ₅₀(237.77)	=	1.3985868212617
log ₅₀(237.78)	=	1.3985975718544
log ₅₀(237.79)	=	1.398608321995
log ₅₀(237.8)	=	1.3986190716836
log ₅₀(237.81)	=	1.3986298209201
log ₅₀(237.82)	=	1.3986405697046
log ₅₀(237.83)	=	1.3986513180371
log ₅₀(237.84)	=	1.3986620659177
log ₅₀(237.85)	=	1.3986728133465
log ₅₀(237.86)	=	1.3986835603234
log ₅₀(237.87)	=	1.3986943068484
log ₅₀(237.88)	=	1.3987050529217
log ₅₀(237.89)	=	1.3987157985433
log ₅₀(237.9)	=	1.3987265437132
log ₅₀(237.91)	=	1.3987372884314
log ₅₀(237.92)	=	1.398748032698
log ₅₀(237.93)	=	1.398758776513
log ₅₀(237.94)	=	1.3987695198765
log ₅₀(237.95)	=	1.3987802627884
log ₅₀(237.96)	=	1.3987910052489
log ₅₀(237.97)	=	1.398801747258
log ₅₀(237.98)	=	1.3988124888156
log ₅₀(237.99)	=	1.398823229922
log ₅₀(238)	=	1.398833970577
log ₅₀(238.01)	=	1.3988447107807
log ₅₀(238.02)	=	1.3988554505332
log ₅₀(238.03)	=	1.3988661898344
log ₅₀(238.04)	=	1.3988769286846
log ₅₀(238.05)	=	1.3988876670835
log ₅₀(238.06)	=	1.3988984050314
log ₅₀(238.07)	=	1.3989091425283
log ₅₀(238.08)	=	1.3989198795741
log ₅₀(238.09)	=	1.398930616169
log ₅₀(238.1)	=	1.3989413523129
log ₅₀(238.11)	=	1.3989520880059
log ₅₀(238.12)	=	1.3989628232481
log ₅₀(238.13)	=	1.3989735580394
log ₅₀(238.14)	=	1.39898429238
log ₅₀(238.15)	=	1.3989950262698
log ₅₀(238.16)	=	1.3990057597089
log ₅₀(238.17)	=	1.3990164926973
log ₅₀(238.18)	=	1.3990272252351
log ₅₀(238.19)	=	1.3990379573222
log ₅₀(238.2)	=	1.3990486889589
log ₅₀(238.21)	=	1.399059420145
log ₅₀(238.22)	=	1.3990701508806
log ₅₀(238.23)	=	1.3990808811658
log ₅₀(238.24)	=	1.3990916110006
log ₅₀(238.25)	=	1.399102340385
log ₅₀(238.26)	=	1.399113069319
log ₅₀(238.27)	=	1.3991237978028
log ₅₀(238.28)	=	1.3991345258363
log ₅₀(238.29)	=	1.3991452534196
log ₅₀(238.3)	=	1.3991559805527
log ₅₀(238.31)	=	1.3991667072357
log ₅₀(238.32)	=	1.3991774334686
log ₅₀(238.33)	=	1.3991881592514
log ₅₀(238.34)	=	1.3991988845842
log ₅₀(238.35)	=	1.3992096094669
log ₅₀(238.36)	=	1.3992203338998
log ₅₀(238.37)	=	1.3992310578827
log ₅₀(238.38)	=	1.3992417814157
log ₅₀(238.39)	=	1.3992525044989
log ₅₀(238.4)	=	1.3992632271323
log ₅₀(238.41)	=	1.3992739493159
log ₅₀(238.42)	=	1.3992846710498
log ₅₀(238.43)	=	1.399295392334
log ₅₀(238.44)	=	1.3993061131686
log ₅₀(238.45)	=	1.3993168335535
log ₅₀(238.46)	=	1.3993275534889
log ₅₀(238.47)	=	1.3993382729747
log ₅₀(238.48)	=	1.399348992011
log ₅₀(238.49)	=	1.3993597105979
log ₅₀(238.5)	=	1.3993704287353
log ₅₀(238.51)	=	1.3993811464234

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 50 (238)