you should include the definition of logarithms how to solve logarithmic equations how they are used in applications of math and everyday life how to graph logarithms explain how logarithms are the inverses of exponential how to graph exponentials importance of exponential functions(growth and decay ex.) pandemics, population)
Do you mean "equations involving exponential functions"? Yes,
If you already know that x = -3 and y = 5 what linear equations are you wanting to solve?
That would depend a lot on the specific equations. Often the following tricks can help: (a) Take antilogarithms to get rid of the logarithms. (b) Use the properties of logarithms, especially: log(ab) = log a + log b; log(a/b) = log a - log b; log ab = b log a. (These properties work for logarithms in any base.)
You can't. You need 2 equations to solve for 2 unknowns
you should include the definition of logarithms how to solve logarithmic equations how they are used in applications of math and everyday life how to graph logarithms explain how logarithms are the inverses of exponential how to graph exponentials importance of exponential functions(growth and decay ex.) pandemics, population)
Do you mean "equations involving exponential functions"? Yes,
additive
If you already know that x = -3 and y = 5 what linear equations are you wanting to solve?
You solve equations with fractions the same way you solve other equations. You perform various arithmetic operations on both sides of the equals sign until you get the result you want.
That would depend a lot on the specific equations. Often the following tricks can help: (a) Take antilogarithms to get rid of the logarithms. (b) Use the properties of logarithms, especially: log(ab) = log a + log b; log(a/b) = log a - log b; log ab = b log a. (These properties work for logarithms in any base.)
Equals divided by non-zero equals are equal.
You need two independent linear equations to solve for two unknown variables.
You can't. You need 2 equations to solve for 2 unknowns
The answer is that it cannot be done. To solve a set of equations in k variables (in this case, 2) you need at least two independent equations.
You can't solve it - you only have one equation and two unknowns. You need 2 equations to solve this.
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