Log48(266) ▷ What is Log Base 48 of 266?

Q: How do you write log 48 266 in exponential form?

In exponential form is 48 1.4423162974615 = 266.

Table of Contents

Log ₄₈ (266) is the logarithm of 266 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 (266) = 1.4423162974615.

Calculate Log Base 48 of 266

To solve the equation log ₄₈ (266) = 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 = 266, a = 48:
log ₄₈ (266) = log(266) / log(48)
Evaluate the term:
log(266) / log(48)
= 1.39794000867204 / 1.92427928606188
= 1.4423162974615
= Logarithm of 266 with base 48

Here’s the logarithm of 48 to the base 266.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 48 ^{1.4423162974615} = 266
48 ^{1.4423162974615} = 266 is the exponential form of log48 (266)
48 is the logarithm base of log48 (266)
266 is the argument of log48 (266)
1.4423162974615 is the exponent or power of 48 ^{1.4423162974615} = 266

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 266?

Log48 (266) = 1.4423162974615.

How do you find the value of log ₄₈266?

Carry out the change of base logarithm operation.

What does log ₄₈ 266 mean?

It means the logarithm of 266 with base 48.

How do you solve log base 48 266?

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

What is the log base 48 of 266?

The value is 1.4423162974615.

How do you write log ₄₈ 266 in exponential form?

In exponential form is 48 ^{1.4423162974615} = 266.

What is log48 (266) equal to?

log base 48 of 266 = 1.4423162974615.

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 266 = 1.4423162974615.

You now know everything about the logarithm with base 48, argument 266 and exponent 1.4423162974615.
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 (266).

Table

Our quick conversion table is easy to use:

log ₄₈(x)		Value
log ₄₈(265.5)	=	1.4418302808236
log ₄₈(265.51)	=	1.4418400101231
log ₄₈(265.52)	=	1.4418497390562
log ₄₈(265.53)	=	1.4418594676229
log ₄₈(265.54)	=	1.4418691958232
log ₄₈(265.55)	=	1.4418789236572
log ₄₈(265.56)	=	1.4418886511248
log ₄₈(265.57)	=	1.4418983782261
log ₄₈(265.58)	=	1.4419081049612
log ₄₈(265.59)	=	1.4419178313301
log ₄₈(265.6)	=	1.4419275573327
log ₄₈(265.61)	=	1.4419372829691
log ₄₈(265.62)	=	1.4419470082394
log ₄₈(265.63)	=	1.4419567331436
log ₄₈(265.64)	=	1.4419664576817
log ₄₈(265.65)	=	1.4419761818537
log ₄₈(265.66)	=	1.4419859056596
log ₄₈(265.67)	=	1.4419956290995
log ₄₈(265.68)	=	1.4420053521735
log ₄₈(265.69)	=	1.4420150748814
log ₄₈(265.7)	=	1.4420247972235
log ₄₈(265.71)	=	1.4420345191996
log ₄₈(265.72)	=	1.4420442408099
log ₄₈(265.73)	=	1.4420539620543
log ₄₈(265.74)	=	1.4420636829328
log ₄₈(265.75)	=	1.4420734034456
log ₄₈(265.76)	=	1.4420831235926
log ₄₈(265.77)	=	1.4420928433739
log ₄₈(265.78)	=	1.4421025627894
log ₄₈(265.79)	=	1.4421122818393
log ₄₈(265.8)	=	1.4421220005235
log ₄₈(265.81)	=	1.4421317188421
log ₄₈(265.82)	=	1.4421414367951
log ₄₈(265.83)	=	1.4421511543824
log ₄₈(265.84)	=	1.4421608716043
log ₄₈(265.85)	=	1.4421705884606
log ₄₈(265.86)	=	1.4421803049514
log ₄₈(265.87)	=	1.4421900210768
log ₄₈(265.88)	=	1.4421997368367
log ₄₈(265.89)	=	1.4422094522312
log ₄₈(265.9)	=	1.4422191672603
log ₄₈(265.91)	=	1.4422288819241
log ₄₈(265.92)	=	1.4422385962225
log ₄₈(265.93)	=	1.4422483101557
log ₄₈(265.94)	=	1.4422580237235
log ₄₈(265.95)	=	1.4422677369261
log ₄₈(265.96)	=	1.4422774497635
log ₄₈(265.97)	=	1.4422871622357
log ₄₈(265.98)	=	1.4422968743428
log ₄₈(265.99)	=	1.4423065860847
log ₄₈(266)	=	1.4423162974615
log ₄₈(266.01)	=	1.4423260084732
log ₄₈(266.02)	=	1.4423357191198
log ₄₈(266.03)	=	1.4423454294014
log ₄₈(266.04)	=	1.442355139318
log ₄₈(266.05)	=	1.4423648488697
log ₄₈(266.06)	=	1.4423745580564
log ₄₈(266.07)	=	1.4423842668782
log ₄₈(266.08)	=	1.4423939753351
log ₄₈(266.09)	=	1.4424036834271
log ₄₈(266.1)	=	1.4424133911543
log ₄₈(266.11)	=	1.4424230985167
log ₄₈(266.12)	=	1.4424328055143
log ₄₈(266.13)	=	1.4424425121472
log ₄₈(266.14)	=	1.4424522184153
log ₄₈(266.15)	=	1.4424619243187
log ₄₈(266.16)	=	1.4424716298575
log ₄₈(266.17)	=	1.4424813350316
log ₄₈(266.18)	=	1.4424910398411
log ₄₈(266.19)	=	1.442500744286
log ₄₈(266.2)	=	1.4425104483663
log ₄₈(266.21)	=	1.4425201520822
log ₄₈(266.22)	=	1.4425298554335
log ₄₈(266.23)	=	1.4425395584203
log ₄₈(266.24)	=	1.4425492610427
log ₄₈(266.25)	=	1.4425589633006
log ₄₈(266.26)	=	1.4425686651942
log ₄₈(266.27)	=	1.4425783667234
log ₄₈(266.28)	=	1.4425880678882
log ₄₈(266.29)	=	1.4425977686887
log ₄₈(266.3)	=	1.442607469125
log ₄₈(266.31)	=	1.442617169197
log ₄₈(266.32)	=	1.4426268689047
log ₄₈(266.33)	=	1.4426365682482
log ₄₈(266.34)	=	1.4426462672276
log ₄₈(266.35)	=	1.4426559658428
log ₄₈(266.36)	=	1.4426656640939
log ₄₈(266.37)	=	1.4426753619809
log ₄₈(266.38)	=	1.4426850595038
log ₄₈(266.39)	=	1.4426947566627
log ₄₈(266.4)	=	1.4427044534576
log ₄₈(266.41)	=	1.4427141498884
log ₄₈(266.42)	=	1.4427238459554
log ₄₈(266.43)	=	1.4427335416583
log ₄₈(266.44)	=	1.4427432369974
log ₄₈(266.45)	=	1.4427529319726
log ₄₈(266.46)	=	1.442762626584
log ₄₈(266.47)	=	1.4427723208315
log ₄₈(266.48)	=	1.4427820147153
log ₄₈(266.49)	=	1.4427917082352
log ₄₈(266.5)	=	1.4428014013914
log ₄₈(266.51)	=	1.442811094184

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 48 (266)