2. Value of limx _o(1+Sin(x))Cosed(X)
Answers
Answer:
Let the limit = L
L = lim x-> 0 ( 1 + sinx )^cosecx
logL = lim x-> 0 cosecx [ log( 1 + sinx ) ]
logL = lim x-> 0 [ log( 1 + sinx ) ] / sinx
This is a 0/0 form.
Hence we apply the L'hospital rule.
logL = lim x-> 0 [ 1/( 1 + sinx ) ] cosx/cosx
logL = 1
L = e.
You can also use the series expression for log(1+x).
There is a general way to evaluate limits where after direct substitution, you get something like 1^(infinity)
If L = lim x -> a f(x)^[g(x)]
And f(a) = 1 and lim x-> a g(x) = infinity,
Then,
logL = lim x -> a [ f(x) - 1 ] g(x)
L = e^{ lim x -> a [ f(x) - 1 ] g(x) }
Step-by-step explanation:
hope this helps you dear
and hope you have a great day
Let the limit = L
L = lim x-> 0 ( 1 + sinx )^cosecx
logL = lim x-> 0 cosecx [ log( 1 + sinx ) ]
logL = lim x-> 0 [ log( 1 + sinx ) ] / sinx
This is a 0/0 form.
Hence we apply the L'hospital rule.
logL = lim x-> 0 [ 1/( 1 + sinx ) ] cosx/cosx
logL = 1
L = e.
You can also use the series expression for log(1+x).
There is a general way to evaluate limits where after direct substitution, you get something like 1^(infinity)
If L = lim x -> a f(x)^[g(x)]
And f(a) = 1 and lim x-> a g(x) = infinity,
Then,
logL = lim x -> a [ f(x) - 1 ] g(x)
L = e^{ lim x -> a [ f(x) - 1 ] g(x) }