Log28(242) ▷ What is Log Base 28 of 242?

Q: How do you write log 28 242 in exponential form?

In exponential form is 28 1.647239150357 = 242.

Table of Contents

Log ₂₈ (242) is the logarithm of 242 to the base 28:

Calculator

×log

Base 1

Exponent 1

Result: Result

Simply the Best Logarithm Calculator! Click To Tweet As you can see in our log calculator, log28 (242) = 1.647239150357.

Calculate Log Base 28 of 242

To solve the equation log ₂₈ (242) = 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 = 242, a = 28:
log ₂₈ (242) = log(242) / log(28)
Evaluate the term:
log(242) / log(28)
= 1.39794000867204 / 1.92427928606188
= 1.647239150357
= Logarithm of 242 with base 28

Here’s the logarithm of 28 to the base 242.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 28 ^{1.647239150357} = 242
28 ^{1.647239150357} = 242 is the exponential form of log28 (242)
28 is the logarithm base of log28 (242)
242 is the argument of log28 (242)
1.647239150357 is the exponent or power of 28 ^{1.647239150357} = 242

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

Frequently searched terms on our site include:

FAQs

What is the value of log28 242?

Log28 (242) = 1.647239150357.

How do you find the value of log ₂₈242?

Carry out the change of base logarithm operation.

What does log ₂₈ 242 mean?

It means the logarithm of 242 with base 28.

How do you solve log base 28 242?

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

What is the log base 28 of 242?

The value is 1.647239150357.

How do you write log ₂₈ 242 in exponential form?

In exponential form is 28 ^{1.647239150357} = 242.

What is log28 (242) equal to?

log base 28 of 242 = 1.647239150357.

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 28 of 242 = 1.647239150357.

You now know everything about the logarithm with base 28, argument 242 and exponent 1.647239150357.
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 Log28 (242).

Table

Our quick conversion table is easy to use:

log ₂₈(x)		Value
log ₂₈(241.5)	=	1.6466184642443
log ₂₈(241.51)	=	1.6466308905555
log ₂₈(241.52)	=	1.6466433163522
log ₂₈(241.53)	=	1.6466557416344
log ₂₈(241.54)	=	1.6466681664022
log ₂₈(241.55)	=	1.6466805906556
log ₂₈(241.56)	=	1.6466930143946
log ₂₈(241.57)	=	1.6467054376193
log ₂₈(241.58)	=	1.6467178603298
log ₂₈(241.59)	=	1.6467302825261
log ₂₈(241.6)	=	1.6467427042082
log ₂₈(241.61)	=	1.6467551253762
log ₂₈(241.62)	=	1.64676754603
log ₂₈(241.63)	=	1.6467799661699
log ₂₈(241.64)	=	1.6467923857957
log ₂₈(241.65)	=	1.6468048049075
log ₂₈(241.66)	=	1.6468172235055
log ₂₈(241.67)	=	1.6468296415895
log ₂₈(241.68)	=	1.6468420591598
log ₂₈(241.69)	=	1.6468544762162
log ₂₈(241.7)	=	1.6468668927589
log ₂₈(241.71)	=	1.6468793087879
log ₂₈(241.72)	=	1.6468917243032
log ₂₈(241.73)	=	1.6469041393049
log ₂₈(241.74)	=	1.646916553793
log ₂₈(241.75)	=	1.6469289677676
log ₂₈(241.76)	=	1.6469413812287
log ₂₈(241.77)	=	1.6469537941763
log ₂₈(241.78)	=	1.6469662066106
log ₂₈(241.79)	=	1.6469786185314
log ₂₈(241.8)	=	1.646991029939
log ₂₈(241.81)	=	1.6470034408332
log ₂₈(241.82)	=	1.6470158512142
log ₂₈(241.83)	=	1.647028261082
log ₂₈(241.84)	=	1.6470406704367
log ₂₈(241.85)	=	1.6470530792783
log ₂₈(241.86)	=	1.6470654876067
log ₂₈(241.87)	=	1.6470778954222
log ₂₈(241.88)	=	1.6470903027247
log ₂₈(241.89)	=	1.6471027095142
log ₂₈(241.9)	=	1.6471151157908
log ₂₈(241.91)	=	1.6471275215546
log ₂₈(241.92)	=	1.6471399268056
log ₂₈(241.93)	=	1.6471523315438
log ₂₈(241.94)	=	1.6471647357692
log ₂₈(241.95)	=	1.647177139482
log ₂₈(241.96)	=	1.6471895426821
log ₂₈(241.97)	=	1.6472019453696
log ₂₈(241.98)	=	1.6472143475446
log ₂₈(241.99)	=	1.647226749207
log ₂₈(242)	=	1.647239150357
log ₂₈(242.01)	=	1.6472515509945
log ₂₈(242.02)	=	1.6472639511196
log ₂₈(242.03)	=	1.6472763507324
log ₂₈(242.04)	=	1.6472887498329
log ₂₈(242.05)	=	1.6473011484211
log ₂₈(242.06)	=	1.6473135464971
log ₂₈(242.07)	=	1.647325944061
log ₂₈(242.08)	=	1.6473383411126
log ₂₈(242.09)	=	1.6473507376522
log ₂₈(242.1)	=	1.6473631336797
log ₂₈(242.11)	=	1.6473755291953
log ₂₈(242.12)	=	1.6473879241988
log ₂₈(242.13)	=	1.6474003186905
log ₂₈(242.14)	=	1.6474127126702
log ₂₈(242.15)	=	1.6474251061381
log ₂₈(242.16)	=	1.6474374990942
log ₂₈(242.17)	=	1.6474498915386
log ₂₈(242.18)	=	1.6474622834712
log ₂₈(242.19)	=	1.6474746748921
log ₂₈(242.2)	=	1.6474870658015
log ₂₈(242.21)	=	1.6474994561992
log ₂₈(242.22)	=	1.6475118460854
log ₂₈(242.23)	=	1.6475242354601
log ₂₈(242.24)	=	1.6475366243233
log ₂₈(242.25)	=	1.6475490126752
log ₂₈(242.26)	=	1.6475614005156
log ₂₈(242.27)	=	1.6475737878447
log ₂₈(242.28)	=	1.6475861746625
log ₂₈(242.29)	=	1.6475985609691
log ₂₈(242.3)	=	1.6476109467644
log ₂₈(242.31)	=	1.6476233320486
log ₂₈(242.32)	=	1.6476357168217
log ₂₈(242.33)	=	1.6476481010837
log ₂₈(242.34)	=	1.6476604848346
log ₂₈(242.35)	=	1.6476728680746
log ₂₈(242.36)	=	1.6476852508036
log ₂₈(242.37)	=	1.6476976330216
log ₂₈(242.38)	=	1.6477100147289
log ₂₈(242.39)	=	1.6477223959252
log ₂₈(242.4)	=	1.6477347766108
log ₂₈(242.41)	=	1.6477471567857
log ₂₈(242.42)	=	1.6477595364498
log ₂₈(242.43)	=	1.6477719156033
log ₂₈(242.44)	=	1.6477842942462
log ₂₈(242.45)	=	1.6477966723785
log ₂₈(242.46)	=	1.6478090500003
log ₂₈(242.47)	=	1.6478214271116
log ₂₈(242.48)	=	1.6478338037124
log ₂₈(242.49)	=	1.6478461798028
log ₂₈(242.5)	=	1.6478585553829
log ₂₈(242.51)	=	1.6478709304526

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 28 (242)