Log48(263) ▷ What is Log Base 48 of 263?

Q: How do you write log 48 263 in exponential form?

In exponential form is 48 1.4393863858986 = 263.

Table of Contents

Log ₄₈ (263) is the logarithm of 263 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 (263) = 1.4393863858986.

Calculate Log Base 48 of 263

To solve the equation log ₄₈ (263) = 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 = 263, a = 48:
log ₄₈ (263) = log(263) / log(48)
Evaluate the term:
log(263) / log(48)
= 1.39794000867204 / 1.92427928606188
= 1.4393863858986
= Logarithm of 263 with base 48

Here’s the logarithm of 48 to the base 263.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 48 ^{1.4393863858986} = 263
48 ^{1.4393863858986} = 263 is the exponential form of log48 (263)
48 is the logarithm base of log48 (263)
263 is the argument of log48 (263)
1.4393863858986 is the exponent or power of 48 ^{1.4393863858986} = 263

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 263?

Log48 (263) = 1.4393863858986.

How do you find the value of log ₄₈263?

Carry out the change of base logarithm operation.

What does log ₄₈ 263 mean?

It means the logarithm of 263 with base 48.

How do you solve log base 48 263?

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

What is the log base 48 of 263?

The value is 1.4393863858986.

How do you write log ₄₈ 263 in exponential form?

In exponential form is 48 ^{1.4393863858986} = 263.

What is log48 (263) equal to?

log base 48 of 263 = 1.4393863858986.

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 263 = 1.4393863858986.

You now know everything about the logarithm with base 48, argument 263 and exponent 1.4393863858986.
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 (263).

Table

Our quick conversion table is easy to use:

log ₄₈(x)		Value
log ₄₈(262.5)	=	1.4388948200665
log ₄₈(262.51)	=	1.4389046605559
log ₄₈(262.52)	=	1.4389145006705
log ₄₈(262.53)	=	1.4389243404102
log ₄₈(262.54)	=	1.4389341797751
log ₄₈(262.55)	=	1.4389440187652
log ₄₈(262.56)	=	1.4389538573806
log ₄₈(262.57)	=	1.4389636956213
log ₄₈(262.58)	=	1.4389735334874
log ₄₈(262.59)	=	1.4389833709787
log ₄₈(262.6)	=	1.4389932080954
log ₄₈(262.61)	=	1.4390030448376
log ₄₈(262.62)	=	1.4390128812052
log ₄₈(262.63)	=	1.4390227171982
log ₄₈(262.64)	=	1.4390325528167
log ₄₈(262.65)	=	1.4390423880607
log ₄₈(262.66)	=	1.4390522229303
log ₄₈(262.67)	=	1.4390620574254
log ₄₈(262.68)	=	1.4390718915462
log ₄₈(262.69)	=	1.4390817252926
log ₄₈(262.7)	=	1.4390915586646
log ₄₈(262.71)	=	1.4391013916624
log ₄₈(262.72)	=	1.4391112242858
log ₄₈(262.73)	=	1.439121056535
log ₄₈(262.74)	=	1.4391308884099
log ₄₈(262.75)	=	1.4391407199107
log ₄₈(262.76)	=	1.4391505510373
log ₄₈(262.77)	=	1.4391603817898
log ₄₈(262.78)	=	1.4391702121681
log ₄₈(262.79)	=	1.4391800421724
log ₄₈(262.8)	=	1.4391898718026
log ₄₈(262.81)	=	1.4391997010587
log ₄₈(262.82)	=	1.4392095299409
log ₄₈(262.83)	=	1.4392193584491
log ₄₈(262.84)	=	1.4392291865834
log ₄₈(262.85)	=	1.4392390143437
log ₄₈(262.86)	=	1.4392488417302
log ₄₈(262.87)	=	1.4392586687428
log ₄₈(262.88)	=	1.4392684953816
log ₄₈(262.89)	=	1.4392783216465
log ₄₈(262.9)	=	1.4392881475377
log ₄₈(262.91)	=	1.4392979730552
log ₄₈(262.92)	=	1.4393077981989
log ₄₈(262.93)	=	1.439317622969
log ₄₈(262.94)	=	1.4393274473654
log ₄₈(262.95)	=	1.4393372713882
log ₄₈(262.96)	=	1.4393470950374
log ₄₈(262.97)	=	1.439356918313
log ₄₈(262.98)	=	1.439366741215
log ₄₈(262.99)	=	1.4393765637436
log ₄₈(263)	=	1.4393863858986
log ₄₈(263.01)	=	1.4393962076802
log ₄₈(263.02)	=	1.4394060290884
log ₄₈(263.03)	=	1.4394158501231
log ₄₈(263.04)	=	1.4394256707845
log ₄₈(263.05)	=	1.4394354910726
log ₄₈(263.06)	=	1.4394453109873
log ₄₈(263.07)	=	1.4394551305287
log ₄₈(263.08)	=	1.4394649496969
log ₄₈(263.09)	=	1.4394747684919
log ₄₈(263.1)	=	1.4394845869136
log ₄₈(263.11)	=	1.4394944049622
log ₄₈(263.12)	=	1.4395042226376
log ₄₈(263.13)	=	1.4395140399399
log ₄₈(263.14)	=	1.4395238568691
log ₄₈(263.15)	=	1.4395336734253
log ₄₈(263.16)	=	1.4395434896084
log ₄₈(263.17)	=	1.4395533054185
log ₄₈(263.18)	=	1.4395631208556
log ₄₈(263.19)	=	1.4395729359198
log ₄₈(263.2)	=	1.4395827506111
log ₄₈(263.21)	=	1.4395925649295
log ₄₈(263.22)	=	1.439602378875
log ₄₈(263.23)	=	1.4396121924476
log ₄₈(263.24)	=	1.4396220056475
log ₄₈(263.25)	=	1.4396318184746
log ₄₈(263.26)	=	1.439641630929
log ₄₈(263.27)	=	1.4396514430106
log ₄₈(263.28)	=	1.4396612547195
log ₄₈(263.29)	=	1.4396710660558
log ₄₈(263.3)	=	1.4396808770194
log ₄₈(263.31)	=	1.4396906876104
log ₄₈(263.32)	=	1.4397004978289
log ₄₈(263.33)	=	1.4397103076747
log ₄₈(263.34)	=	1.4397201171481
log ₄₈(263.35)	=	1.439729926249
log ₄₈(263.36)	=	1.4397397349774
log ₄₈(263.37)	=	1.4397495433333
log ₄₈(263.38)	=	1.4397593513169
log ₄₈(263.39)	=	1.4397691589281
log ₄₈(263.4)	=	1.4397789661669
log ₄₈(263.41)	=	1.4397887730334
log ₄₈(263.42)	=	1.4397985795276
log ₄₈(263.43)	=	1.4398083856495
log ₄₈(263.44)	=	1.4398181913992
log ₄₈(263.45)	=	1.4398279967767
log ₄₈(263.46)	=	1.4398378017819
log ₄₈(263.47)	=	1.4398476064151
log ₄₈(263.48)	=	1.4398574106761
log ₄₈(263.49)	=	1.439867214565
log ₄₈(263.5)	=	1.4398770180818
log ₄₈(263.51)	=	1.4398868212266

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Log 48 (263)