Log48(213) ▷ What is Log Base 48 of 213?

Q: How do you write log 48 213 in exponential form?

In exponential form is 48 1.3849170194477 = 213.

Table of Contents

Log ₄₈ (213) is the logarithm of 213 to the base 48:

Calculator

×log

Base 1

Exponent 1

Result: Result

Simply the Best Logarithm Calculator! Click To Tweet As you can see in our log calculator, log48 (213) = 1.3849170194477.

Calculate Log Base 48 of 213

To solve the equation log ₄₈ (213) = 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 = 213, a = 48:
log ₄₈ (213) = log(213) / log(48)
Evaluate the term:
log(213) / log(48)
= 1.39794000867204 / 1.92427928606188
= 1.3849170194477
= Logarithm of 213 with base 48

Here’s the logarithm of 48 to the base 213.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 48 ^{1.3849170194477} = 213
48 ^{1.3849170194477} = 213 is the exponential form of log48 (213)
48 is the logarithm base of log48 (213)
213 is the argument of log48 (213)
1.3849170194477 is the exponent or power of 48 ^{1.3849170194477} = 213

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

Frequently searched terms on our site include:

FAQs

What is the value of log48 213?

Log48 (213) = 1.3849170194477.

How do you find the value of log ₄₈213?

Carry out the change of base logarithm operation.

What does log ₄₈ 213 mean?

It means the logarithm of 213 with base 48.

How do you solve log base 48 213?

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

What is the log base 48 of 213?

The value is 1.3849170194477.

How do you write log ₄₈ 213 in exponential form?

In exponential form is 48 ^{1.3849170194477} = 213.

What is log48 (213) equal to?

log base 48 of 213 = 1.3849170194477.

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 48 of 213 = 1.3849170194477.

You now know everything about the logarithm with base 48, argument 213 and exponent 1.3849170194477.
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 Log48 (213).

Table

Our quick conversion table is easy to use:

log ₄₈(x)		Value
log ₄₈(212.5)	=	1.3843099268843
log ₄₈(212.51)	=	1.3843220827285
log ₄₈(212.52)	=	1.3843342380007
log ₄₈(212.53)	=	1.3843463927009
log ₄₈(212.54)	=	1.3843585468293
log ₄₈(212.55)	=	1.3843707003858
log ₄₈(212.56)	=	1.3843828533705
log ₄₈(212.57)	=	1.3843950057835
log ₄₈(212.58)	=	1.3844071576248
log ₄₈(212.59)	=	1.3844193088945
log ₄₈(212.6)	=	1.3844314595927
log ₄₈(212.61)	=	1.3844436097193
log ₄₈(212.62)	=	1.3844557592744
log ₄₈(212.63)	=	1.3844679082582
log ₄₈(212.64)	=	1.3844800566706
log ₄₈(212.65)	=	1.3844922045117
log ₄₈(212.66)	=	1.3845043517815
log ₄₈(212.67)	=	1.3845164984802
log ₄₈(212.68)	=	1.3845286446077
log ₄₈(212.69)	=	1.3845407901641
log ₄₈(212.7)	=	1.3845529351495
log ₄₈(212.71)	=	1.3845650795639
log ₄₈(212.72)	=	1.3845772234074
log ₄₈(212.73)	=	1.38458936668
log ₄₈(212.74)	=	1.3846015093818
log ₄₈(212.75)	=	1.3846136515129
log ₄₈(212.76)	=	1.3846257930732
log ₄₈(212.77)	=	1.3846379340629
log ₄₈(212.78)	=	1.384650074482
log ₄₈(212.79)	=	1.3846622143305
log ₄₈(212.8)	=	1.3846743536085
log ₄₈(212.81)	=	1.3846864923161
log ₄₈(212.82)	=	1.3846986304533
log ₄₈(212.83)	=	1.3847107680202
log ₄₈(212.84)	=	1.3847229050168
log ₄₈(212.85)	=	1.3847350414431
log ₄₈(212.86)	=	1.3847471772993
log ₄₈(212.87)	=	1.3847593125854
log ₄₈(212.88)	=	1.3847714473014
log ₄₈(212.89)	=	1.3847835814474
log ₄₈(212.9)	=	1.3847957150234
log ₄₈(212.91)	=	1.3848078480295
log ₄₈(212.92)	=	1.3848199804658
log ₄₈(212.93)	=	1.3848321123322
log ₄₈(212.94)	=	1.384844243629
log ₄₈(212.95)	=	1.384856374356
log ₄₈(212.96)	=	1.3848685045134
log ₄₈(212.97)	=	1.3848806341012
log ₄₈(212.98)	=	1.3848927631195
log ₄₈(212.99)	=	1.3849048915683
log ₄₈(213)	=	1.3849170194477
log ₄₈(213.01)	=	1.3849291467577
log ₄₈(213.02)	=	1.3849412734984
log ₄₈(213.03)	=	1.3849533996698
log ₄₈(213.04)	=	1.384965525272
log ₄₈(213.05)	=	1.3849776503051
log ₄₈(213.06)	=	1.3849897747691
log ₄₈(213.07)	=	1.385001898664
log ₄₈(213.08)	=	1.3850140219899
log ₄₈(213.09)	=	1.3850261447468
log ₄₈(213.1)	=	1.3850382669349
log ₄₈(213.11)	=	1.3850503885542
log ₄₈(213.12)	=	1.3850625096046
log ₄₈(213.13)	=	1.3850746300863
log ₄₈(213.14)	=	1.3850867499994
log ₄₈(213.15)	=	1.3850988693438
log ₄₈(213.16)	=	1.3851109881197
log ₄₈(213.17)	=	1.385123106327
log ₄₈(213.18)	=	1.3851352239659
log ₄₈(213.19)	=	1.3851473410364
log ₄₈(213.2)	=	1.3851594575385
log ₄₈(213.21)	=	1.3851715734723
log ₄₈(213.22)	=	1.3851836888379
log ₄₈(213.23)	=	1.3851958036352
log ₄₈(213.24)	=	1.3852079178645
log ₄₈(213.25)	=	1.3852200315256
log ₄₈(213.26)	=	1.3852321446187
log ₄₈(213.27)	=	1.3852442571438
log ₄₈(213.28)	=	1.385256369101
log ₄₈(213.29)	=	1.3852684804903
log ₄₈(213.3)	=	1.3852805913118
log ₄₈(213.31)	=	1.3852927015655
log ₄₈(213.32)	=	1.3853048112515
log ₄₈(213.33)	=	1.3853169203698
log ₄₈(213.34)	=	1.3853290289206
log ₄₈(213.35)	=	1.3853411369037
log ₄₈(213.36)	=	1.3853532443194
log ₄₈(213.37)	=	1.3853653511676
log ₄₈(213.38)	=	1.3853774574484
log ₄₈(213.39)	=	1.3853895631619
log ₄₈(213.4)	=	1.3854016683081
log ₄₈(213.41)	=	1.385413772887
log ₄₈(213.42)	=	1.3854258768988
log ₄₈(213.43)	=	1.3854379803434
log ₄₈(213.44)	=	1.3854500832209
log ₄₈(213.45)	=	1.3854621855314
log ₄₈(213.46)	=	1.385474287275
log ₄₈(213.47)	=	1.3854863884516
log ₄₈(213.48)	=	1.3854984890614
log ₄₈(213.49)	=	1.3855105891043
log ₄₈(213.5)	=	1.3855226885805
log ₄₈(213.51)	=	1.38553478749

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Log 48 (213)