Log48(127) ▷ What is Log Base 48 of 127?

Q: How do you write log 48 127 in exponential form?

In exponential form is 48 1.2513395901709 = 127.

Table of Contents

Log ₄₈ (127) is the logarithm of 127 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 (127) = 1.2513395901709.

Calculate Log Base 48 of 127

To solve the equation log ₄₈ (127) = 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 = 127, a = 48:
log ₄₈ (127) = log(127) / log(48)
Evaluate the term:
log(127) / log(48)
= 1.39794000867204 / 1.92427928606188
= 1.2513395901709
= Logarithm of 127 with base 48

Here’s the logarithm of 48 to the base 127.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 48 ^{1.2513395901709} = 127
48 ^{1.2513395901709} = 127 is the exponential form of log48 (127)
48 is the logarithm base of log48 (127)
127 is the argument of log48 (127)
1.2513395901709 is the exponent or power of 48 ^{1.2513395901709} = 127

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 127?

Log48 (127) = 1.2513395901709.

How do you find the value of log ₄₈127?

Carry out the change of base logarithm operation.

What does log ₄₈ 127 mean?

It means the logarithm of 127 with base 48.

How do you solve log base 48 127?

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

What is the log base 48 of 127?

The value is 1.2513395901709.

How do you write log ₄₈ 127 in exponential form?

In exponential form is 48 ^{1.2513395901709} = 127.

What is log48 (127) equal to?

log base 48 of 127 = 1.2513395901709.

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 127 = 1.2513395901709.

You now know everything about the logarithm with base 48, argument 127 and exponent 1.2513395901709.
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 (127).

Table

Our quick conversion table is easy to use:

log ₄₈(x)		Value
log ₄₈(126.5)	=	1.2503205838522
log ₄₈(126.51)	=	1.2503410034219
log ₄₈(126.52)	=	1.2503614213777
log ₄₈(126.53)	=	1.2503818377196
log ₄₈(126.54)	=	1.2504022524481
log ₄₈(126.55)	=	1.2504226655634
log ₄₈(126.56)	=	1.2504430770657
log ₄₈(126.57)	=	1.2504634869552
log ₄₈(126.58)	=	1.2504838952323
log ₄₈(126.59)	=	1.2505043018971
log ₄₈(126.6)	=	1.25052470695
log ₄₈(126.61)	=	1.2505451103912
log ₄₈(126.62)	=	1.2505655122209
log ₄₈(126.63)	=	1.2505859124394
log ₄₈(126.64)	=	1.250606311047
log ₄₈(126.65)	=	1.2506267080438
log ₄₈(126.66)	=	1.2506471034303
log ₄₈(126.67)	=	1.2506674972065
log ₄₈(126.68)	=	1.2506878893729
log ₄₈(126.69)	=	1.2507082799295
log ₄₈(126.7)	=	1.2507286688767
log ₄₈(126.71)	=	1.2507490562148
log ₄₈(126.72)	=	1.2507694419439
log ₄₈(126.73)	=	1.2507898260644
log ₄₈(126.74)	=	1.2508102085765
log ₄₈(126.75)	=	1.2508305894805
log ₄₈(126.76)	=	1.2508509687765
log ₄₈(126.77)	=	1.2508713464649
log ₄₈(126.78)	=	1.2508917225459
log ₄₈(126.79)	=	1.2509120970198
log ₄₈(126.8)	=	1.2509324698868
log ₄₈(126.81)	=	1.2509528411471
log ₄₈(126.82)	=	1.2509732108011
log ₄₈(126.83)	=	1.250993578849
log ₄₈(126.84)	=	1.2510139452909
log ₄₈(126.85)	=	1.2510343101273
log ₄₈(126.86)	=	1.2510546733583
log ₄₈(126.87)	=	1.2510750349842
log ₄₈(126.88)	=	1.2510953950053
log ₄₈(126.89)	=	1.2511157534217
log ₄₈(126.9)	=	1.2511361102338
log ₄₈(126.91)	=	1.2511564654418
log ₄₈(126.92)	=	1.2511768190459
log ₄₈(126.93)	=	1.2511971710464
log ₄₈(126.94)	=	1.2512175214437
log ₄₈(126.95)	=	1.2512378702378
log ₄₈(126.96)	=	1.2512582174291
log ₄₈(126.97)	=	1.2512785630178
log ₄₈(126.98)	=	1.2512989070041
log ₄₈(126.99)	=	1.2513192493884
log ₄₈(127)	=	1.2513395901709
log ₄₈(127.01)	=	1.2513599293518
log ₄₈(127.02)	=	1.2513802669314
log ₄₈(127.03)	=	1.2514006029099
log ₄₈(127.04)	=	1.2514209372875
log ₄₈(127.05)	=	1.2514412700647
log ₄₈(127.06)	=	1.2514616012415
log ₄₈(127.07)	=	1.2514819308182
log ₄₈(127.08)	=	1.2515022587952
log ₄₈(127.09)	=	1.2515225851725
log ₄₈(127.1)	=	1.2515429099506
log ₄₈(127.11)	=	1.2515632331296
log ₄₈(127.12)	=	1.2515835547099
log ₄₈(127.13)	=	1.2516038746915
log ₄₈(127.14)	=	1.2516241930749
log ₄₈(127.15)	=	1.2516445098602
log ₄₈(127.16)	=	1.2516648250477
log ₄₈(127.17)	=	1.2516851386377
log ₄₈(127.18)	=	1.2517054506304
log ₄₈(127.19)	=	1.251725761026
log ₄₈(127.2)	=	1.2517460698249
log ₄₈(127.21)	=	1.2517663770272
log ₄₈(127.22)	=	1.2517866826332
log ₄₈(127.23)	=	1.2518069866432
log ₄₈(127.24)	=	1.2518272890574
log ₄₈(127.25)	=	1.251847589876
log ₄₈(127.26)	=	1.2518678890994
log ₄₈(127.27)	=	1.2518881867277
log ₄₈(127.28)	=	1.2519084827613
log ₄₈(127.29)	=	1.2519287772003
log ₄₈(127.3)	=	1.251949070045
log ₄₈(127.31)	=	1.2519693612957
log ₄₈(127.32)	=	1.2519896509526
log ₄₈(127.33)	=	1.252009939016
log ₄₈(127.34)	=	1.2520302254861
log ₄₈(127.35)	=	1.2520505103631
log ₄₈(127.36)	=	1.2520707936474
log ₄₈(127.37)	=	1.2520910753392
log ₄₈(127.38)	=	1.2521113554386
log ₄₈(127.39)	=	1.2521316339461
log ₄₈(127.4)	=	1.2521519108617
log ₄₈(127.41)	=	1.2521721861858
log ₄₈(127.42)	=	1.2521924599187
log ₄₈(127.43)	=	1.2522127320605
log ₄₈(127.44)	=	1.2522330026115
log ₄₈(127.45)	=	1.252253271572
log ₄₈(127.46)	=	1.2522735389422
log ₄₈(127.47)	=	1.2522938047223
log ₄₈(127.48)	=	1.2523140689127
log ₄₈(127.49)	=	1.2523343315136
log ₄₈(127.5)	=	1.2523545925251

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Log 48 (127)