Log48(272) ▷ What is Log Base 48 of 272?

Q: How do you write log 48 272 in exponential form?

In exponential form is 48 1.4480782709295 = 272.

Table of Contents

Log ₄₈ (272) is the logarithm of 272 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 (272) = 1.4480782709295.

Calculate Log Base 48 of 272

To solve the equation log ₄₈ (272) = 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 = 272, a = 48:
log ₄₈ (272) = log(272) / log(48)
Evaluate the term:
log(272) / log(48)
= 1.39794000867204 / 1.92427928606188
= 1.4480782709295
= Logarithm of 272 with base 48

Here’s the logarithm of 48 to the base 272.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 48 ^{1.4480782709295} = 272
48 ^{1.4480782709295} = 272 is the exponential form of log48 (272)
48 is the logarithm base of log48 (272)
272 is the argument of log48 (272)
1.4480782709295 is the exponent or power of 48 ^{1.4480782709295} = 272

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 272?

Log48 (272) = 1.4480782709295.

How do you find the value of log ₄₈272?

Carry out the change of base logarithm operation.

What does log ₄₈ 272 mean?

It means the logarithm of 272 with base 48.

How do you solve log base 48 272?

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

What is the log base 48 of 272?

The value is 1.4480782709295.

How do you write log ₄₈ 272 in exponential form?

In exponential form is 48 ^{1.4480782709295} = 272.

What is log48 (272) equal to?

log base 48 of 272 = 1.4480782709295.

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 272 = 1.4480782709295.

You now know everything about the logarithm with base 48, argument 272 and exponent 1.4480782709295.
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 (272).

Table

Our quick conversion table is easy to use:

log ₄₈(x)		Value
log ₄₈(271.5)	=	1.4476029851159
log ₄₈(271.51)	=	1.4476124994072
log ₄₈(271.52)	=	1.4476220133482
log ₄₈(271.53)	=	1.4476315269387
log ₄₈(271.54)	=	1.4476410401789
log ₄₈(271.55)	=	1.4476505530687
log ₄₈(271.56)	=	1.4476600656082
log ₄₈(271.57)	=	1.4476695777974
log ₄₈(271.58)	=	1.4476790896364
log ₄₈(271.59)	=	1.4476886011251
log ₄₈(271.6)	=	1.4476981122637
log ₄₈(271.61)	=	1.447707623052
log ₄₈(271.62)	=	1.4477171334902
log ₄₈(271.63)	=	1.4477266435783
log ₄₈(271.64)	=	1.4477361533162
log ₄₈(271.65)	=	1.4477456627041
log ₄₈(271.66)	=	1.4477551717419
log ₄₈(271.67)	=	1.4477646804297
log ₄₈(271.68)	=	1.4477741887675
log ₄₈(271.69)	=	1.4477836967553
log ₄₈(271.7)	=	1.4477932043931
log ₄₈(271.71)	=	1.4478027116811
log ₄₈(271.72)	=	1.4478122186191
log ₄₈(271.73)	=	1.4478217252073
log ₄₈(271.74)	=	1.4478312314456
log ₄₈(271.75)	=	1.4478407373341
log ₄₈(271.76)	=	1.4478502428728
log ₄₈(271.77)	=	1.4478597480617
log ₄₈(271.78)	=	1.4478692529009
log ₄₈(271.79)	=	1.4478787573903
log ₄₈(271.8)	=	1.4478882615301
log ₄₈(271.81)	=	1.4478977653202
log ₄₈(271.82)	=	1.4479072687607
log ₄₈(271.83)	=	1.4479167718515
log ₄₈(271.84)	=	1.4479262745928
log ₄₈(271.85)	=	1.4479357769845
log ₄₈(271.86)	=	1.4479452790266
log ₄₈(271.87)	=	1.4479547807192
log ₄₈(271.88)	=	1.4479642820624
log ₄₈(271.89)	=	1.4479737830561
log ₄₈(271.9)	=	1.4479832837003
log ₄₈(271.91)	=	1.4479927839952
log ₄₈(271.92)	=	1.4480022839406
log ₄₈(271.93)	=	1.4480117835367
log ₄₈(271.94)	=	1.4480212827835
log ₄₈(271.95)	=	1.4480307816809
log ₄₈(271.96)	=	1.4480402802291
log ₄₈(271.97)	=	1.448049778428
log ₄₈(271.98)	=	1.4480592762777
log ₄₈(271.99)	=	1.4480687737782
log ₄₈(272)	=	1.4480782709295
log ₄₈(272.01)	=	1.4480877677316
log ₄₈(272.02)	=	1.4480972641847
log ₄₈(272.03)	=	1.4481067602886
log ₄₈(272.04)	=	1.4481162560434
log ₄₈(272.05)	=	1.4481257514492
log ₄₈(272.06)	=	1.448135246506
log ₄₈(272.07)	=	1.4481447412137
log ₄₈(272.08)	=	1.4481542355725
log ₄₈(272.09)	=	1.4481637295824
log ₄₈(272.1)	=	1.4481732232433
log ₄₈(272.11)	=	1.4481827165553
log ₄₈(272.12)	=	1.4481922095185
log ₄₈(272.13)	=	1.4482017021328
log ₄₈(272.14)	=	1.4482111943983
log ₄₈(272.15)	=	1.448220686315
log ₄₈(272.16)	=	1.4482301778829
log ₄₈(272.17)	=	1.4482396691021
log ₄₈(272.18)	=	1.4482491599725
log ₄₈(272.19)	=	1.4482586504943
log ₄₈(272.2)	=	1.4482681406674
log ₄₈(272.21)	=	1.4482776304919
log ₄₈(272.22)	=	1.4482871199677
log ₄₈(272.23)	=	1.448296609095
log ₄₈(272.24)	=	1.4483060978737
log ₄₈(272.25)	=	1.4483155863038
log ₄₈(272.26)	=	1.4483250743855
log ₄₈(272.27)	=	1.4483345621186
log ₄₈(272.28)	=	1.4483440495033
log ₄₈(272.29)	=	1.4483535365396
log ₄₈(272.3)	=	1.4483630232274
log ₄₈(272.31)	=	1.4483725095669
log ₄₈(272.32)	=	1.448381995558
log ₄₈(272.33)	=	1.4483914812008
log ₄₈(272.34)	=	1.4484009664953
log ₄₈(272.35)	=	1.4484104514414
log ₄₈(272.36)	=	1.4484199360394
log ₄₈(272.37)	=	1.4484294202891
log ₄₈(272.38)	=	1.4484389041906
log ₄₈(272.39)	=	1.4484483877439
log ₄₈(272.4)	=	1.448457870949
log ₄₈(272.41)	=	1.4484673538061
log ₄₈(272.42)	=	1.448476836315
log ₄₈(272.43)	=	1.4484863184758
log ₄₈(272.44)	=	1.4484958002886
log ₄₈(272.45)	=	1.4485052817534
log ₄₈(272.46)	=	1.4485147628701
log ₄₈(272.47)	=	1.4485242436389
log ₄₈(272.48)	=	1.4485337240598
log ₄₈(272.49)	=	1.4485432041327
log ₄₈(272.5)	=	1.4485526838577
log ₄₈(272.51)	=	1.4485621632349

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 (272)