eternallyboreduser
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well if its an infinite sum, then u should take the limit as k goes to infinityWhy do we the let the number of top of sigma be k? Why not infinity? Just wondering, thanks in advance View attachment 42234View attachment 42235View attachment 42237
Wdym? My teacher said to create a telescoping sum, but im wondering why they put k at the topwell if its an infinite sum, then u should take the limit as k goes to infinity
their working out is kinda janked though but prob previous parts make sense
When you say taking the limit to infinity youre talking about subbing in all the x values right for example like 1+2+3+....+...+nk is just an arbitrary value u can use any letter as long as u take the limit to infinity
But why dont we let it be infinity then? Is it cos it would be hard to form a telescoping sum that way?k is just an arbitrary value u can use any letter as long as u take the limit to infinity
infinity isnt a number most of the time when u see infinities in math ur actually just taking a limit to infinity. the infinity commonly used in math is just another way of saying what happens as this number gets really big.But why dont we let it be infinity then? Is it cos it would be hard to form a telescoping sum that way?
But then wouldnt u sub in infinity which dorsnt rlly make sense and i dont think it would gey u the right answer eitherinfinity isnt a number most of the time when u see infinities in math ur actually just taking a limit to infinity. the infinity commonly used in math is just another way of saying what happens as this number gets really big.
u can still make a telescoping sum if the symbol used is infinity it doesnt really matter
? @kendricklamarlover101 Is that what you meant?When you say taking the limit to infinity youre talking about subbing in all the x values right for example like 1+2+3+....+...+n
So like this part
?? @kendricklamarlover101 Is that what you meant?
if u do take the limit u get that the result would equal 1 + ln(2) + ln(2) > 1+ln2But then wouldnt u sub in infinity which dorsnt rlly make sense and i dont think it would gey u the right answer either
u can take the limit from the start just by writing? @kendricklamarlover101 Is that what you meant?
How exactly would you solve that eqn tho? Is it the same way as the written sol?if u do take the limit u get that the result would equal 1 + ln(2) + ln(2) > 1+ln2
u can take the limit from the start just by writing
and if u want to expand the sum out to see the telescoping series the result would look like
also im pretty sure the solution has an error as the first 2 sums should just cancel out to ln(k).
yup basically just adding that limit notation to show that ur actually taking the infinite sumHow exactly would you solve that eqn tho? Is it the same way as the written sol?
Oh, so in the solution where they write the sum and let the top be k theyre essentially saying its infinity but they didnt writr the limityup basically just adding that limit notation to show that ur actually taking the infinite sum
yupOh, so in the solution where they write the sum and let the top be k theyre essentially saying its infinity but they didnt writr the limit
Oh okay, thanks alot for the clarification