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Log Calculator (Logarithm)
If there is an exponent in the argument of a logarithm, the exponent can be pulled out of the logarithm and multiplied. logbxy = y × logbx EX: log(26) = 6 × log(2) = 1.806 · It is also possible to change the base of the logarithm using the following rule.
Mathway
mathway.com › popular-problems › Algebra › 200731
Evaluate log base 2 of 4 | Mathway
Rewrite in exponential form using the definition of a logarithm. If and are positive real numbers and does not equal , then is equivalent to . ... Create equivalent expressions in the equation that all have equal bases.
logarithms - how to simplify log base 2 and log base 4 - Mathematics Stack Exchange
Use the result of the first paragraph to change $\log_2(2x+1)$ to $2\log_4(2x+1)$ and $\log_2x$ to $2\log_4x$; then you have ... and you can use the usual properties of logs to express this as the log base $4$ of a single expression. More on math.stackexchange.com
Solve for x, 1+2*log(base 4)(x+1) = 2log(base 2)(t)
1+2*(log base 4 of (x+1))=2*(log base 2 of (x)) (Given) Writing everything in terms of log base 4 is an acceptable strategy. Let's start with the 1 on the left-hand-side. 1 How do we re-write the 1, so that it's in terms of log base 4? Well, let's find out. Iog base 4 of (y) = 1 Suppose we didn't know what we need to take log base 4 of, in order to get 1. Let's call this value y, as shown above. We can convert this equation from logarithmic form to exponential form. Doing this gives us that 41=y. Then we know that 41=4, so we get 4=y (So, y=4). We can re-write 1 as (log base 4 of (4)) (I will call this expression (*)). Let's re-write the log on the right-hand-side as a log with a base of 4. 2*(log base 2 of (x)) We have a coefficient of 2 on this log, so we first need to pull the 2 back inside of the log. When we do this, the 2 will become the exponent on the x. In this case, we are just using the Power Property of Logarithms in the opposite direction. (log base 2 of (x2)) We can re-write this expression as a log with a base of 4, by using the Change-of-Base Formula. ((log base 4 of (x2))/(log base 4 of (2))) We can evaluate (log base 4 of (2)) by hand. Let's suppose that we didn't know the value of (log base 4 of (2)) off the top of our heads, so let's call it z. (log base 4 of (2))=z Converting from logarithmic form to exponential form gives us that 4z=2. We can get common bases, since we can think of 4 as 22 (and the 2 is 21). Then, using our properties of exponents, since we have a power raised to a power, we leave the base alone, and then multiply the exponents together. So, 4z=(22)z=22*z=22z. We can think of the 2 on the right as 21. We now have the following: 22z=21 At this point, since we just have a single exponential expression on both sides, and both sides have the same base, we can just set the exponents equal to each other, and solve (This is because exponential functions are one-to-one). 2z=1 z=(1/2) (Divide both sides by 2) Remember from earlier that z was what we called our original log (i.e., log base 4 of (2)), so this tells us that (log base 4 of (2))=(1/2). ((log base 4 of (x2))/(log base 4 of (2))) ((log base 4 of (x2))/(1/2)) Dividing by (1/2) is the same thing as multiplying by (2/1) (which is 2). 2*(log base 4 of (x2)) Now we pull the 2 back inside of the log, and when we do this, it becomes the exponent on the x2. (log base 4 of ((x2)2)) (x2)2=x2*2=x4 (log base 4 of (x4)) (I will call this expression (***)) As for the 2nd log on the left-hand-side, we have the following: 2*(log base 4 of (x+1)) Once again, we pull the 2 back inside of the log, and when we do this, it becomes the exponent on the (x+1). (log base 4 of ((x+1)2)) (log base 4 of (x2+2x+1)) (I will call this expression (**)) I will expand the (x+1)2. (x+1)2=((x)2)+(2*(x)*(1))+((1)2)=x2+2x+1 ((x)2)=x2 2*(x)*(1) =2x*(1) (Because 2*(x)=2x) =2x (Because 2x*(1)=2x) (1)2=12=1*1=1 Note: I used a formula to expand (x+1)2. Since we have a binomial sum/difference being squared, we can use this formula to expand the expression. (a±b)2=a2±2ab+b2 Note: If you're having trouble visualizing the multiplication this way, then you could also re-write (x+1)2 as (x+1)*(x+1), and then multiply/F.O.I.L. it out. Just remember that exponents do NOT distribute across sums and differences, so if you have a binomial sum/difference, you can't just square each term individually, and then add/subtract their squares. Our equation now becomes as follows: () + () = () (log base 4 of (4))+(log base 4 of (x2+2x+1))=(log base 4 of (x4)) On the left-hand-side, we just have two logs with the same base that are being added, so we can write it in terms of just a single logarithm (Of course, the new log will have the same base as the two logs that we're adding), and when we do this, we multiply the arguments of these logs together (This will give us the argument of the condensed log). (log base 4 of (4))+(log base 4 of (x2+2x+1)) =(log base 4 of (4*(x2+2x+1))) Keep in mind that the (x2+2x+1) needs to be inside parentheses, because that whole expression (not just one single term, but every term) is being multiplied by the 4. Now, we distribute the 4. =(log base 4 of (4x2+8x+4)) The right-hand-side has not changed. (log base 4 of (4x2+8x+4))=(log base 4 of (x4)) We now have a logarithmic equation, where we just have a single log on both sides, and both logs have the same base, so we can just set the arguments (i.e., the insides of the logs) equal to each other, and then solve for x (Similar to exponential functions, logarithmic functions are also one-to-one). 4x2+8x+4=x4 This is a polynomial equation of degree higher than 1, so we need to get one side of the equation equal to zero (0). In the equation above, the term with the highest power is x4, so I will move everything over to the right-hand-side (I don't like to have a negative leading coefficient). Hence, we subtract 4x2, 8x, and 4 from both sides. We get the following: 0=x4-4x2-8x-4 I will re-write the equation, so that we have the variables on the left-hand-side. x4-4x2-8x-4=0 You will need to solve this equation for x, and then check the original equation for extraneous solutions. More on reddit.com
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April 8, 2022Log base (-2) of 4
Many reasons. One is that logs are an invertible function. If you allow for log base -2 and log base 2 of 4 to both be 2, you're going to lose invertibility. Also because of change of base. Log base -2 of 4 should be equal to log(4) / log(-2) but we've got a problem with that denominator. More on reddit.com
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January 24, 2025what am I missing? log2(-4)
The logarithm of negative numbers is undefined for this reason. No power of 2, or any number, will ever yield a negative. This is why the graph of log(x) has a vertical asymptote at x=0 as it is undefined in the negatives. More on reddit.com
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March 21, 2024How do I calculate the logarithm in base 2?
To calculate the logarithm in base 2, you probably need a calculator. However, if you know the result of the natural logarithm or the base 10 logarithm of the same argument, you can follow these easy steps to find the result. For a number x:
-
Find the result of either
log10(x)orln(x). -
Divide the result of the previous step by the corresponding value between:
-
log10(2) = 0.30103; or -
ln(2) = 0.693147.
-
-
The result of the division is
log2(x).
omnicalculator.com
omnicalculator.com › math › log-2
Log Base 2 Calculator
Why is the logarithm in base 2 important?
In a computer world, binary code is of essential importance: words, numbers, pictures, and everything else can be reduced to a string of 0s and 1s. Since the binary code uses only two digits, the number 2 appears consistently in computer science.
The widespread appearance of log2 in computer science has no strong mathematical reason (since logarithms can change base by multiplication) but can be useful. For example, using log2 to compute entropy allows us to obtain the result expressed in bits, which are the natural unit.
omnicalculator.com
omnicalculator.com › math › log-2
Log Base 2 Calculator
What is the logarithm in base 2 of 256?
The logarithm in base 2 of 256 is 8. To find this result, consider the following formula:
2x = 256
The logarithm corresponds to the following equation:
log2(256) = x
In this case, we can check the powers of 2 to see if we can find the value of x: 20 = 1, 21 = 2, 22 = 4, …, 27 = 128, and 28 = 256.
Since we found the argument of our logarithm, we can write that:
log2(256) = 8.
omnicalculator.com
omnicalculator.com › math › log-2
Log Base 2 Calculator
Videos
Does log_2(4^3) = log_2(4)^3? - YouTube
00:51
Find Log Base 2 of 4 – Step-by-Step Explanation - YouTube
00:58
Find Log 2 base 4 – Step-by-Step Explanation || Log_4 2 Value ...
00:34
Evaluate the Logarithm without a Calculator: Example with Log base ...
00:50
Find the Value of a Logarithm without Using a Calculator an Example ...
00:27
log4(x) = 2, solve - YouTube
Mathway
mathway.com › popular-problems › Algebra › 200638
Evaluate log base 4 of 2 | Mathway
Rewrite in exponential form using the definition of a logarithm. If and are positive real numbers and does not equal , then is equivalent to . ... Create expressions in the equation that all have equal bases.
Omni Calculator
omnicalculator.com › math › log-2
Log Base 2 Calculator
December 17, 2025 - As mentioned at the end of the ... power we should raise 2 in order to obtain x. For instance, we can easily observe that log₂ 4 = 2. Seemingly, 2 is a number like any other....
Mathway
mathway.com › popular-problems › Algebra › 222660
Solve for x log base 4 of 2=x | Mathway
Rewrite in exponential form using the definition of a logarithm. If and are positive real numbers and does not equal , then is equivalent to . ... Create expressions in the equation that all have equal bases.
Logarithm Calculator
logcalculator.net
Logarithm Calculator log(x)
Therefore, logarithm is the exponent to which it is necessary to raise a fixed number (which is called the base), to get the number y. In other words, a logarithm can be represented as the following: ... For example, 23 = 8 ⇒ log2 8 = 3 (the logarithm of 8 to base 2 is equal to 3, because 23 = 8).
Wikipedia
en.wikipedia.org › wiki › Binary_logarithm
Binary logarithm - Wikipedia
February 15, 2026 - For example, the binary logarithm of 1 is 0, the binary logarithm of 2 is 1, the binary logarithm of 4 is 2, and the binary logarithm of 32 is 5. The binary logarithm is the logarithm to the base 2 and is the inverse function of the power of ...
Top answer 1 of 2
3
$\log_2(2x+1)-5\log_4x^2+4\log_2x$
$=\log_2(2x+1)+\log_2x^4-5\frac{\log_yx^2}{\log_y4}$
as $\log a+ \log b=\log ab,m\log a=\log a^m$ and $\log_yz=\frac{\log_xz}{\log_xy}$ where $x\neq 1$ as $\log_1y$ is not defined.
$=\log_2(2x+1)x^4-5\frac{\log_yx^2}{\log_y2^2}$
$=\log_2(2x+1)x^4-5\frac{2\log_yx}{2\log_y2}$
$=\log_2(2x+1)x^4-5\log_2x$
$=\log_2(2x+1)x^4-\log_2x^5$
$=\log_2\frac{(2x+1)x^4}{x^5}$
$=\log_2\frac{(2x+1)}{x}$
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Suppose that $x>0$ is some number, and $\log_4x=y$. That means that $4^y=x$. Now $4=2^2$, so $x=4^y=\left(2^2\right)^y=2^{2y}$, and that means that $\log_2x=2y$. In other words, we’ve just demonstrated that for any $x>0$, $\log_2x=2\log_4x$.
Now you have $\log_2(2x+1)-5\log_4x^2+4\log_2x$, which mixes logs base $2$ with logs base $4$; it would be much easier to simplify if all of the logs were to the same base. Use the result of the first paragraph to change $\log_2(2x+1)$ to $2\log_4(2x+1)$ and $\log_2x$ to $2\log_4x$; then you have
$$2\log_4(2x+1)-5\log_4x^2+8\log_4x\;,$$
and you can use the usual properties of logs to express this as the log base $4$ of a single expression.
Going back to $\log_2x=2\log_4x$, if you happen to notice that $2\log_4x=\log_4x^2$, you simply replace $5\log_4x^2$ by $5\log_2x$ to get
$$\log_2(2x+1)-5\log_2x+4\log_2x\;,$$
which is even easier to simplify. The answers that you get by these two approaches won’t be identical, since one will be a log base $4$ and the other a log base $2$, but they’ll be equal, and you can use the relationship $\log_2x=2\log_4x$ to verify this.
Omni Calculator
omnicalculator.com › math › log
Log Calculator (Logarithm)
You can choose various numbers as the base for logarithms; however, two particular bases are used so often that mathematicians have given unique names to them: the natural logarithm and the common logarithm. ... If you want to compute a number's natural logarithm, you need to choose a base that is approximately equal to 2.718281.
Published December 16, 2025
Brainly
brainly.com › mathematics › high school › what is the value of [tex]\log_4 2[/tex]?
[FREE] What is the value of \log_4 2? - brainly.com
April 11, 2021 - Next, we can rewrite the base 4 using base 2. Since 4=22, we have: ... Thus, the value of log42 is 21. For example, if you want to find log416, you can set it up similarly: log416=x implies 4x=16.
1728.org
1728.org › logrithm.htm
LOGARITHM CALCULATOR
Logarithm calculator, calculates logarithms and anti-logarithms to any number base
Reddit
reddit.com › r/mathhelp › solve for x, 1+2*log(base 4)(x+1) = 2log(base 2)(t)
r/MathHelp on Reddit: Solve for x, 1+2*log(base 4)(x+1) = 2log(base 2)(t)
April 8, 2022 -
Hi, I have tried solving by doing the following:
convert all numbers to logs and equate log bases, log(base 4)(4) + log(base 4)(x+1)^2 = log(base 4)(x)^4
remove logs, 4(x+1)^2 = x^4
solve for x:
x^4 - 4(x+1)^2 = 0
(x^2+2(x+1))(x^2-2(x+1))= 0
x^2+2(x+1) = 0 OR x^2-2(x+1)=0
at this point I get stuck and don't know how to solve for x
Can anyone tell me if I am on the right track and how to continue to solve for x?
Top answer 1 of 3
2
1+2*(log base 4 of (x+1))=2*(log base 2 of (x)) (Given) Writing everything in terms of log base 4 is an acceptable strategy. Let's start with the 1 on the left-hand-side. 1 How do we re-write the 1, so that it's in terms of log base 4? Well, let's find out. Iog base 4 of (y) = 1 Suppose we didn't know what we need to take log base 4 of, in order to get 1. Let's call this value y, as shown above. We can convert this equation from logarithmic form to exponential form. Doing this gives us that 41=y. Then we know that 41=4, so we get 4=y (So, y=4). We can re-write 1 as (log base 4 of (4)) (I will call this expression (*)). Let's re-write the log on the right-hand-side as a log with a base of 4. 2*(log base 2 of (x)) We have a coefficient of 2 on this log, so we first need to pull the 2 back inside of the log. When we do this, the 2 will become the exponent on the x. In this case, we are just using the Power Property of Logarithms in the opposite direction. (log base 2 of (x2)) We can re-write this expression as a log with a base of 4, by using the Change-of-Base Formula. ((log base 4 of (x2))/(log base 4 of (2))) We can evaluate (log base 4 of (2)) by hand. Let's suppose that we didn't know the value of (log base 4 of (2)) off the top of our heads, so let's call it z. (log base 4 of (2))=z Converting from logarithmic form to exponential form gives us that 4z=2. We can get common bases, since we can think of 4 as 22 (and the 2 is 21). Then, using our properties of exponents, since we have a power raised to a power, we leave the base alone, and then multiply the exponents together. So, 4z=(22)z=22*z=22z. We can think of the 2 on the right as 21. We now have the following: 22z=21 At this point, since we just have a single exponential expression on both sides, and both sides have the same base, we can just set the exponents equal to each other, and solve (This is because exponential functions are one-to-one). 2z=1 z=(1/2) (Divide both sides by 2) Remember from earlier that z was what we called our original log (i.e., log base 4 of (2)), so this tells us that (log base 4 of (2))=(1/2). ((log base 4 of (x2))/(log base 4 of (2))) ((log base 4 of (x2))/(1/2)) Dividing by (1/2) is the same thing as multiplying by (2/1) (which is 2). 2*(log base 4 of (x2)) Now we pull the 2 back inside of the log, and when we do this, it becomes the exponent on the x2. (log base 4 of ((x2)2)) (x2)2=x2*2=x4 (log base 4 of (x4)) (I will call this expression (***)) As for the 2nd log on the left-hand-side, we have the following: 2*(log base 4 of (x+1)) Once again, we pull the 2 back inside of the log, and when we do this, it becomes the exponent on the (x+1). (log base 4 of ((x+1)2)) (log base 4 of (x2+2x+1)) (I will call this expression (**)) I will expand the (x+1)2. (x+1)2=((x)2)+(2*(x)*(1))+((1)2)=x2+2x+1 ((x)2)=x2 2*(x)*(1) =2x*(1) (Because 2*(x)=2x) =2x (Because 2x*(1)=2x) (1)2=12=1*1=1 Note: I used a formula to expand (x+1)2. Since we have a binomial sum/difference being squared, we can use this formula to expand the expression. (a±b)2=a2±2ab+b2 Note: If you're having trouble visualizing the multiplication this way, then you could also re-write (x+1)2 as (x+1)*(x+1), and then multiply/F.O.I.L. it out. Just remember that exponents do NOT distribute across sums and differences, so if you have a binomial sum/difference, you can't just square each term individually, and then add/subtract their squares. Our equation now becomes as follows: () + () = () (log base 4 of (4))+(log base 4 of (x2+2x+1))=(log base 4 of (x4)) On the left-hand-side, we just have two logs with the same base that are being added, so we can write it in terms of just a single logarithm (Of course, the new log will have the same base as the two logs that we're adding), and when we do this, we multiply the arguments of these logs together (This will give us the argument of the condensed log). (log base 4 of (4))+(log base 4 of (x2+2x+1)) =(log base 4 of (4*(x2+2x+1))) Keep in mind that the (x2+2x+1) needs to be inside parentheses, because that whole expression (not just one single term, but every term) is being multiplied by the 4. Now, we distribute the 4. =(log base 4 of (4x2+8x+4)) The right-hand-side has not changed. (log base 4 of (4x2+8x+4))=(log base 4 of (x4)) We now have a logarithmic equation, where we just have a single log on both sides, and both logs have the same base, so we can just set the arguments (i.e., the insides of the logs) equal to each other, and then solve for x (Similar to exponential functions, logarithmic functions are also one-to-one). 4x2+8x+4=x4 This is a polynomial equation of degree higher than 1, so we need to get one side of the equation equal to zero (0). In the equation above, the term with the highest power is x4, so I will move everything over to the right-hand-side (I don't like to have a negative leading coefficient). Hence, we subtract 4x2, 8x, and 4 from both sides. We get the following: 0=x4-4x2-8x-4 I will re-write the equation, so that we have the variables on the left-hand-side. x4-4x2-8x-4=0 You will need to solve this equation for x, and then check the original equation for extraneous solutions.
2 of 3
1
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Cool Conversion
coolconversion.com › home › math calculators › log calculator › log base 2 of 4
Log base 2 of 4 | Log2 Calculator
2 weeks ago - The base 2 logarithm of 4 is approximately 2.
GETCALC
getcalc.com › math-log-base2of4.htm
log2(4) or Log Base 2 of 4?
log2(4) = 2 · The below is the work with steps to find what is log base 2 of 4 shows how the input values are being used in the log base 2 functions.
Reddit
reddit.com › r/askmath › log base (-2) of 4
r/askmath on Reddit: Log base (-2) of 4
January 24, 2025 -
Shouldn't this just be 2? My calculator is giving me a complex number. Why is this the case? Because (-2) squared is 4 so wouldn't the above just be two?
Top answer 1 of 6
5
Many reasons. One is that logs are an invertible function. If you allow for log base -2 and log base 2 of 4 to both be 2, you're going to lose invertibility. Also because of change of base. Log base -2 of 4 should be equal to log(4) / log(-2) but we've got a problem with that denominator.
2 of 6
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What is the complex number?
BYJUS
byjus.com › maths › value-of-log-4
How to calculate the value of Log 4?
July 13, 2022 - Therefore, the value of log 4 to the base 2 equals 2.
Wolfram|Alpha
wolframalpha.com › input
log base 2 of 4 - Wolfram|Alpha
Compute answers using Wolfram's breakthrough technology & knowledgebase, relied on by millions of students & professionals. For math, science, nutrition, history, geography, engineering, mathematics, linguistics, sports, finance, music…
Mathway
mathway.com › popular-problems › Algebra › 232998
Simplify/Condense log base 4 of 2 | Mathway
Rewrite in exponential form using the definition of a logarithm. If and are positive real numbers and does not equal , then is equivalent to . ... Create expressions in the equation that all have equal bases.
Brainly
brainly.com › mathematics › high school › write the equation in equivalent exponential form:
log base 4 of 2 equals \(\frac{1}{2}\).
what is the equivalent exponential form?
a) \(4^{1/2} = 2\)
b) \(4^{2/1} = 2\)
c) \(4^{1/4} = 2\)
d) \(4^{2/2} = 2\)
[FREE] Write the equation in equivalent exponential form: Log base 4 of 2 equals \frac{1}{2}. What is the - brainly.com
To rewrite the given logarithmic ... logarithm becomes the value of the exponential expression. In this case, we have log base 4 of 2 equals 1/2....
VEDANTU
vedantu.com › maths › value of log 4: step-by-step calculation
Value of Log 4 Explained: Base 10 & e with Examples
April 23, 2020 - Substitute the value of \[log_{2}2\] ... the base 2. ... The value of log 4 to the base 4 is equal to unity. Antilogarithm of the logarithmic value of 4 is equal to 4 · The above-mentioned text introduced you to the value of log 4 and also ...