Enter natural log statement
Evaluate the following logarithmic expression
logarithmof500
Evaluate logof500
You didn't enter a base
We'll do bases e and 2-10
Evaluate loge(500) using the Change of Base Formula
The formula for the change of base rule in logb(x) is as follows:
| logb(x) = | Ln(x) |
| Ln(b) |
Given b = e and x = 500, we have:
| loge(500) = | Ln(500) |
| Ln(e) |
Ln(e) = 1
loge(500) = 6.2146080984222
Evaluate log2(500) using the Change of Base Formula
The formula for the change of base rule in logb(x) is as follows:
| logb(x) = | Ln(x) |
| Ln(b) |
Given b = 2 and x = 500, we have:
| log2(500) = | Ln(500) |
| Ln(2) |
log2(500) = 8.9657842846621
Evaluate log3(500) using the Change of Base Formula
The formula for the change of base rule in logb(x) is as follows:
| logb(x) = | Ln(x) |
| Ln(b) |
Given b = 3 and x = 500, we have:
| log3(500) = | Ln(500) |
| Ln(3) |
log3(500) = 5.6567800692967
Evaluate log4(500) using the Change of Base Formula
The formula for the change of base rule in logb(x) is as follows:
| logb(x) = | Ln(x) |
| Ln(b) |
Given b = 4 and x = 500, we have:
| log4(500) = | Ln(500) |
| Ln(4) |
log4(500) = 4.482892142331
Evaluate log5(500) using the Change of Base Formula
The formula for the change of base rule in logb(x) is as follows:
| logb(x) = | Ln(x) |
| Ln(b) |
Given b = 5 and x = 500, we have:
| log5(500) = | Ln(500) |
| Ln(5) |
log5(500) = 3.8613531161468
Evaluate log6(500) using the Change of Base Formula
The formula for the change of base rule in logb(x) is as follows:
| logb(x) = | Ln(x) |
| Ln(b) |
Given b = 6 and x = 500, we have:
| log6(500) = | Ln(500) |
| Ln(6) |
log6(500) = 3.4684388195809
Evaluate log7(500) using the Change of Base Formula
The formula for the change of base rule in logb(x) is as follows:
| logb(x) = | Ln(x) |
| Ln(b) |
Given b = 7 and x = 500, we have:
| log7(500) = | Ln(500) |
| Ln(7) |
log7(500) = 3.1936768002568
Evaluate log8(500) using the Change of Base Formula
The formula for the change of base rule in logb(x) is as follows:
| logb(x) = | Ln(x) |
| Ln(b) |
Given b = 8 and x = 500, we have:
| log8(500) = | Ln(500) |
| Ln(8) |
log8(500) = 2.988594761554
Evaluate log9(500) using the Change of Base Formula
The formula for the change of base rule in logb(x) is as follows:
| logb(x) = | Ln(x) |
| Ln(b) |
Given b = 9 and x = 500, we have:
| log9(500) = | Ln(500) |
| Ln(9) |
log9(500) = 2.8283900346483
Evaluate log10(500) using the Change of Base Formula
The formula for the change of base rule in logb(x) is as follows:
| logb(x) = | Ln(x) |
| Ln(b) |
Given b = 10 and x = 500, we have:
| log10(500) = | Ln(500) |
| Ln(10) |
log10(500) = 2.698970004336
Final Answer
log2(500) = 8.9657842846621
log3(500) = 5.6567800692967
log4(500) = 4.482892142331
log5(500) = 3.8613531161468
log6(500) = 3.4684388195809
log7(500) = 3.1936768002568
log8(500) = 2.988594761554
log9(500) = 2.8283900346483
log10(500) = 2.698970004336
You have 2 free calculationss remaining
What is the Answer?
log2(500) = 8.9657842846621
log3(500) = 5.6567800692967
log4(500) = 4.482892142331
log5(500) = 3.8613531161468
log6(500) = 3.4684388195809
log7(500) = 3.1936768002568
log8(500) = 2.988594761554
log9(500) = 2.8283900346483
log10(500) = 2.698970004336
How does the Logarithms and Natural Logarithms and Eulers Constant (e) Calculator work?
* Takes the Natural Log base e of a number x Ln(x) → logex
* Raises e to a power of y, ey
* Performs the change of base rule on logb(x)
* Solves equations in the form bcx = d where b, c, and d are constants and x is any variable a-z
* Solves equations in the form cedx=b where b, c, and d are constants, e is Eulers Constant = 2.71828182846, and x is any variable a-z
* Exponential form to logarithmic form for expressions such as 53 = 125 to logarithmic form
* Logarithmic form to exponential form for expressions such as Log5125 = 3
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What 8 formulas are used for the Logarithms and Natural Logarithms and Eulers Constant (e) Calculator?
Ln(ab)= Ln(a) + Ln(b)
Ln(e) = 1
Ln(1) = 0
Ln(xy) = y * ln(x)
For more math formulas, check out our Formula Dossier
What 4 concepts are covered in the Logarithms and Natural Logarithms and Eulers Constant (e) Calculator?
- euler
- Famous mathematician who developed Euler's constant
- logarithm
- the exponent or power to which a base must be raised to yield a given number
- natural logarithm
- its logarithm to the base of the mathematical constant e
eLn(x) = x - power
- how many times to use the number in a multiplication
Example calculations for the Logarithms and Natural Logarithms and Eulers Constant (e) Calculator
Logarithms and Natural Logarithms and Eulers Constant (e) Calculator Video
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