If you're reading this ❤️ A great exponential equation! What do you think about this problem? Hello My Friend ! Have a Great Day:) @higher_mathematics #maths #algebra
Good explanation, the only thing l would add here is l think you should mention explicitly that log you take here has a base of 10. People with less experience with logarithms might get confused here.
Rule #1 of youtube math videos : solution is obvious and integer (well it's not the case here) Rule #2 : when rule #1 does not apply, solution is related to the gloden ratio. Here it's the golden's ratio decimal logarithm ...
If you havent realised it yet, the roots you got are Phi and Psi!
Nice! Thank you!
Good explanation, the only thing l would add here is l think you should mention explicitly that log you take here has a base of 10. People with less experience with logarithms might get confused here.
y2 with 1 minus root 5 is smaller than y2 with 1 minus 2
Rule #1 of youtube math videos : solution is obvious and integer (well it's not the case here)
Rule #2 : when rule #1 does not apply, solution is related to the gloden ratio.
Here it's the golden's ratio decimal logarithm ...
sometimes the answer is e, quite often the answer is pi
This helped me a lot. I also see Log (100^x)=2x. Would be nice if I can simplify the LHS Log (1+10^x) algebraically.
why [ log(1+√5)-log2≈0.2 ] ? I'm so stupid......
You're not stupid. He probably used a calculator to get an approximate value. You can look up how to compute an approximation yourself.
X=0
Does not work
I think you mean smaller not larger
Ez but cool!
Simple
Looks like bullshit for me