rocomath said:Your third line is wrong, but your final answer is correct. I'm not sure what you were doing, but you wouldn't take the log of the right side then drop the log on the left.
Whilst your first point is always true, your second point is not. I know people (myself included) who sometimes write log(x) to be base e. One should always check the conventions of the book that one is using.rocomath said:ln is base e and log by itself, is implied base 10.
The value of y when solving log 3 log10 y = -2 is 0.0019953. This can be found by using the logarithm identity log a log b = log ab and solving for y.
Yes, there is a specific method to solve equations with multiple logarithms. It involves using logarithm identities and algebraic manipulation to simplify the equation and isolate the variable being solved for.
Yes, the equation log 3 log10 y = -2 can be solved without using a calculator. The solution can be found by using logarithm identities and algebraic manipulation to simplify the equation and isolate the variable being solved for.
The solution to log 3 log10 y = -2 can be checked by plugging it back into the original equation. If the left side of the equation equals -2, then the solution is correct.
Yes, there are restrictions on the value of y when solving log 3 log10 y = -2. The value of y must be greater than 0, as the logarithm of 0 is undefined. Additionally, y must be a real number, as logarithms are only defined for positive real numbers.