How do you write log 387 387 in exponential form?

In exponential form is 387 1 = 387.

Log387(387) ▷ What is Log Base 387 of 387?

Table of Contents

Log ₃₈₇ (387) is the logarithm of 387 to the base 387:

Calculator

×log

Base 1

Exponent 1

Result: Result

Simply the Best Logarithm Calculator! Click To Tweet As you can see in our log calculator, log387 (387) = 1.

Calculate Log Base 387 of 387

To solve the equation log ₃₈₇ (387) = 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 = 387, a = 387:
log ₃₈₇ (387) = log(387) / log(387)
Evaluate the term:
log(387) / log(387)
= 1.39794000867204 / 1.92427928606188
= 1
= Logarithm of 387 with base 387

Here’s the logarithm of 387 to the base 387.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 387 ¹ = 387
387 ¹ = 387 is the exponential form of log387 (387)
387 is the logarithm base of log387 (387)
387 is the argument of log387 (387)
1 is the exponent or power of 387 ¹ = 387

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

Frequently searched terms on our site include:

FAQs

What is the value of log387 387?

Log387 (387) = 1.

How do you find the value of log ₃₈₇387?

Carry out the change of base logarithm operation.

What does log ₃₈₇ 387 mean?

It means the logarithm of 387 with base 387.

How do you solve log base 387 387?

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

What is the log base 387 of 387?

The value is 1.

How do you write log ₃₈₇ 387 in exponential form?

In exponential form is 387 ¹ = 387.

What is log387 (387) equal to?

log base 387 of 387 = 1.

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 387 of 387 = 1.

You now know everything about the logarithm with base 387, argument 387 and exponent 1.
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 Log387 (387).

Table

Our quick conversion table is easy to use:

log ₃₈₇(x)		Value
log ₃₈₇(386.5)	=	0.99978302570412
log ₃₈₇(386.51)	=	0.99978736794017
log ₃₈₇(386.52)	=	0.99979171006388
log ₃₈₇(386.53)	=	0.99979605207525
log ₃₈₇(386.54)	=	0.99980039397429
log ₃₈₇(386.55)	=	0.999804735761
log ₃₈₇(386.56)	=	0.9998090774354
log ₃₈₇(386.57)	=	0.99981341899748
log ₃₈₇(386.58)	=	0.99981776044725
log ₃₈₇(386.59)	=	0.99982210178471
log ₃₈₇(386.6)	=	0.99982644300988
log ₃₈₇(386.61)	=	0.99983078412276
log ₃₈₇(386.62)	=	0.99983512512336
log ₃₈₇(386.63)	=	0.99983946601167
log ₃₈₇(386.64)	=	0.99984380678772
log ₃₈₇(386.65)	=	0.99984814745149
log ₃₈₇(386.66)	=	0.999852488003
log ₃₈₇(386.67)	=	0.99985682844226
log ₃₈₇(386.68)	=	0.99986116876926
log ₃₈₇(386.69)	=	0.99986550898403
log ₃₈₇(386.7)	=	0.99986984908655
log ₃₈₇(386.71)	=	0.99987418907684
log ₃₈₇(386.72)	=	0.9998785289549
log ₃₈₇(386.73)	=	0.99988286872074
log ₃₈₇(386.74)	=	0.99988720837437
log ₃₈₇(386.75)	=	0.99989154791578
log ₃₈₇(386.76)	=	0.999895887345
log ₃₈₇(386.77)	=	0.99990022666201
log ₃₈₇(386.78)	=	0.99990456586683
log ₃₈₇(386.79)	=	0.99990890495947
log ₃₈₇(386.8)	=	0.99991324393992
log ₃₈₇(386.81)	=	0.9999175828082
log ₃₈₇(386.82)	=	0.99992192156431
log ₃₈₇(386.83)	=	0.99992626020826
log ₃₈₇(386.84)	=	0.99993059874005
log ₃₈₇(386.85)	=	0.99993493715969
log ₃₈₇(386.86)	=	0.99993927546718
log ₃₈₇(386.87)	=	0.99994361366253
log ₃₈₇(386.88)	=	0.99994795174575
log ₃₈₇(386.89)	=	0.99995228971684
log ₃₈₇(386.9)	=	0.99995662757581
log ₃₈₇(386.91)	=	0.99996096532266
log ₃₈₇(386.92)	=	0.99996530295739
log ₃₈₇(386.93)	=	0.99996964048003
log ₃₈₇(386.94)	=	0.99997397789056
log ₃₈₇(386.95)	=	0.999978315189
log ₃₈₇(386.96)	=	0.99998265237535
log ₃₈₇(386.97)	=	0.99998698944962
log ₃₈₇(386.98)	=	0.99999132641182
log ₃₈₇(386.99)	=	0.99999566326194
log ₃₈₇(387)	=	1
log ₃₈₇(387.01)	=	1.000004336626
log ₃₈₇(387.02)	=	1.0000086731399
log ₃₈₇(387.03)	=	1.0000130095418
log ₃₈₇(387.04)	=	1.0000173458317
log ₃₈₇(387.05)	=	1.0000216820095
log ₃₈₇(387.06)	=	1.0000260180753
log ₃₈₇(387.07)	=	1.0000303540291
log ₃₈₇(387.08)	=	1.0000346898708
log ₃₈₇(387.09)	=	1.0000390256006
log ₃₈₇(387.1)	=	1.0000433612183
log ₃₈₇(387.11)	=	1.000047696724
log ₃₈₇(387.12)	=	1.0000520321178
log ₃₈₇(387.13)	=	1.0000563673995
log ₃₈₇(387.14)	=	1.0000607025693
log ₃₈₇(387.15)	=	1.000065037627
log ₃₈₇(387.16)	=	1.0000693725729
log ₃₈₇(387.17)	=	1.0000737074067
log ₃₈₇(387.18)	=	1.0000780421286
log ₃₈₇(387.19)	=	1.0000823767385
log ₃₈₇(387.2)	=	1.0000867112365
log ₃₈₇(387.21)	=	1.0000910456225
log ₃₈₇(387.22)	=	1.0000953798966
log ₃₈₇(387.23)	=	1.0000997140588
log ₃₈₇(387.24)	=	1.000104048109
log ₃₈₇(387.25)	=	1.0001083820473
log ₃₈₇(387.26)	=	1.0001127158738
log ₃₈₇(387.27)	=	1.0001170495883
log ₃₈₇(387.28)	=	1.0001213831908
log ₃₈₇(387.29)	=	1.0001257166815
log ₃₈₇(387.3)	=	1.0001300500604
log ₃₈₇(387.31)	=	1.0001343833273
log ₃₈₇(387.32)	=	1.0001387164823
log ₃₈₇(387.33)	=	1.0001430495255
log ₃₈₇(387.34)	=	1.0001473824568
log ₃₈₇(387.35)	=	1.0001517152762
log ₃₈₇(387.36)	=	1.0001560479838
log ₃₈₇(387.37)	=	1.0001603805795
log ₃₈₇(387.38)	=	1.0001647130634
log ₃₈₇(387.39)	=	1.0001690454355
log ₃₈₇(387.4)	=	1.0001733776957
log ₃₈₇(387.41)	=	1.0001777098441
log ₃₈₇(387.42)	=	1.0001820418806
log ₃₈₇(387.43)	=	1.0001863738054
log ₃₈₇(387.44)	=	1.0001907056183
log ₃₈₇(387.45)	=	1.0001950373194
log ₃₈₇(387.46)	=	1.0001993689088
log ₃₈₇(387.47)	=	1.0002037003863
log ₃₈₇(387.48)	=	1.0002080317521
log ₃₈₇(387.49)	=	1.000212363006
log ₃₈₇(387.5)	=	1.0002166941482
log ₃₈₇(387.51)	=	1.0002210251787

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Log 387 (387)