Log50(328) ▷ What is Log Base 50 of 328?

Q: How do you write log 50 328 in exponential form?

In exponential form is 50 1.4808229911598 = 328.

Table of Contents

Log ₅₀ (328) is the logarithm of 328 to the base 50:

Calculator

×log

Base 1

Exponent 1

Result: Result

Simply the Best Logarithm Calculator! Click To Tweet As you can see in our log calculator, log50 (328) = 1.4808229911598.

Calculate Log Base 50 of 328

To solve the equation log ₅₀ (328) = 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 = 328, a = 50:
log ₅₀ (328) = log(328) / log(50)
Evaluate the term:
log(328) / log(50)
= 1.39794000867204 / 1.92427928606188
= 1.4808229911598
= Logarithm of 328 with base 50

Here’s the logarithm of 50 to the base 328.

Additional Information

From the definition of logarithm b ^y = x ⇔ y = log _b(x) follows that 50 ^{1.4808229911598} = 328
50 ^{1.4808229911598} = 328 is the exponential form of log50 (328)
50 is the logarithm base of log50 (328)
328 is the argument of log50 (328)
1.4808229911598 is the exponent or power of 50 ^{1.4808229911598} = 328

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

Frequently searched terms on our site include:

FAQs

What is the value of log50 328?

Log50 (328) = 1.4808229911598.

How do you find the value of log ₅₀328?

Carry out the change of base logarithm operation.

What does log ₅₀ 328 mean?

It means the logarithm of 328 with base 50.

How do you solve log base 50 328?

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

What is the log base 50 of 328?

The value is 1.4808229911598.

How do you write log ₅₀ 328 in exponential form?

In exponential form is 50 ^{1.4808229911598} = 328.

What is log50 (328) equal to?

log base 50 of 328 = 1.4808229911598.

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 50 of 328 = 1.4808229911598.

You now know everything about the logarithm with base 50, argument 328 and exponent 1.4808229911598.
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 Log50 (328).

Table

Our quick conversion table is easy to use:

log ₅₀(x)		Value
log ₅₀(327.5)	=	1.4804330258384
log ₅₀(327.51)	=	1.4804408309778
log ₅₀(327.52)	=	1.4804486358789
log ₅₀(327.53)	=	1.4804564405417
log ₅₀(327.54)	=	1.4804642449662
log ₅₀(327.55)	=	1.4804720491525
log ₅₀(327.56)	=	1.4804798531005
log ₅₀(327.57)	=	1.4804876568102
log ₅₀(327.58)	=	1.4804954602818
log ₅₀(327.59)	=	1.4805032635151
log ₅₀(327.6)	=	1.4805110665102
log ₅₀(327.61)	=	1.4805188692672
log ₅₀(327.62)	=	1.4805266717859
log ₅₀(327.63)	=	1.4805344740665
log ₅₀(327.64)	=	1.480542276109
log ₅₀(327.65)	=	1.4805500779134
log ₅₀(327.66)	=	1.4805578794796
log ₅₀(327.67)	=	1.4805656808077
log ₅₀(327.68)	=	1.4805734818978
log ₅₀(327.69)	=	1.4805812827498
log ₅₀(327.7)	=	1.4805890833638
log ₅₀(327.71)	=	1.4805968837397
log ₅₀(327.72)	=	1.4806046838775
log ₅₀(327.73)	=	1.4806124837774
log ₅₀(327.74)	=	1.4806202834393
log ₅₀(327.75)	=	1.4806280828632
log ₅₀(327.76)	=	1.4806358820491
log ₅₀(327.77)	=	1.4806436809971
log ₅₀(327.78)	=	1.4806514797072
log ₅₀(327.79)	=	1.4806592781793
log ₅₀(327.8)	=	1.4806670764135
log ₅₀(327.81)	=	1.4806748744098
log ₅₀(327.82)	=	1.4806826721683
log ₅₀(327.83)	=	1.4806904696889
log ₅₀(327.84)	=	1.4806982669716
log ₅₀(327.85)	=	1.4807060640165
log ₅₀(327.86)	=	1.4807138608236
log ₅₀(327.87)	=	1.4807216573929
log ₅₀(327.88)	=	1.4807294537244
log ₅₀(327.89)	=	1.4807372498181
log ₅₀(327.9)	=	1.480745045674
log ₅₀(327.91)	=	1.4807528412922
log ₅₀(327.92)	=	1.4807606366727
log ₅₀(327.93)	=	1.4807684318155
log ₅₀(327.94)	=	1.4807762267205
log ₅₀(327.95)	=	1.4807840213879
log ₅₀(327.96)	=	1.4807918158176
log ₅₀(327.97)	=	1.4807996100096
log ₅₀(327.98)	=	1.4808074039639
log ₅₀(327.99)	=	1.4808151976807
log ₅₀(328)	=	1.4808229911598
log ₅₀(328.01)	=	1.4808307844013
log ₅₀(328.02)	=	1.4808385774053
log ₅₀(328.03)	=	1.4808463701716
log ₅₀(328.04)	=	1.4808541627005
log ₅₀(328.05)	=	1.4808619549917
log ₅₀(328.06)	=	1.4808697470454
log ₅₀(328.07)	=	1.4808775388617
log ₅₀(328.08)	=	1.4808853304404
log ₅₀(328.09)	=	1.4808931217816
log ₅₀(328.1)	=	1.4809009128854
log ₅₀(328.11)	=	1.4809087037517
log ₅₀(328.12)	=	1.4809164943805
log ₅₀(328.13)	=	1.4809242847719
log ₅₀(328.14)	=	1.4809320749259
log ₅₀(328.15)	=	1.4809398648426
log ₅₀(328.16)	=	1.4809476545218
log ₅₀(328.17)	=	1.4809554439636
log ₅₀(328.18)	=	1.4809632331681
log ₅₀(328.19)	=	1.4809710221353
log ₅₀(328.2)	=	1.4809788108651
log ₅₀(328.21)	=	1.4809865993576
log ₅₀(328.22)	=	1.4809943876129
log ₅₀(328.23)	=	1.4810021756308
log ₅₀(328.24)	=	1.4810099634115
log ₅₀(328.25)	=	1.4810177509549
log ₅₀(328.26)	=	1.481025538261
log ₅₀(328.27)	=	1.48103332533
log ₅₀(328.28)	=	1.4810411121617
log ₅₀(328.29)	=	1.4810488987562
log ₅₀(328.3)	=	1.4810566851136
log ₅₀(328.31)	=	1.4810644712338
log ₅₀(328.32)	=	1.4810722571168
log ₅₀(328.33)	=	1.4810800427627
log ₅₀(328.34)	=	1.4810878281715
log ₅₀(328.35)	=	1.4810956133431
log ₅₀(328.36)	=	1.4811033982777
log ₅₀(328.37)	=	1.4811111829751
log ₅₀(328.38)	=	1.4811189674356
log ₅₀(328.39)	=	1.4811267516589
log ₅₀(328.4)	=	1.4811345356452
log ₅₀(328.41)	=	1.4811423193945
log ₅₀(328.42)	=	1.4811501029068
log ₅₀(328.43)	=	1.4811578861821
log ₅₀(328.44)	=	1.4811656692204
log ₅₀(328.45)	=	1.4811734520217
log ₅₀(328.46)	=	1.4811812345861
log ₅₀(328.47)	=	1.4811890169136
log ₅₀(328.48)	=	1.4811967990041
log ₅₀(328.49)	=	1.4812045808577
log ₅₀(328.5)	=	1.4812123624745
log ₅₀(328.51)	=	1.4812201438543

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 50 (328)