Hoe los ik deze limiet op?

Hoe los ik deze limiet op?
Anonim

Antwoord:

# e ^ a * (a / 2) * (1 - a) #

Uitleg:

# "Je zou Taylor-serie kunnen gebruiken en hogere ordertermen laten vallen in de" # # "limiet voor" x-> 0 "." #

# x ^ y = exp (y * ln (x)) #

# => (1 + x) ^ y = exp (y * ln (1 + x)) #

# "en" ln (1 + x) = x - x ^ 2/2 + x ^ 3/3 - … #

# "en" exp (x) = 1 + x + x ^ 2/2 + x ^ 3/6 + x ^ 4/24 + … #

#"Zo"#

#exp (y * ln (1 + x)) = exp (y * (x - x ^ 2/2 + …)) #

# => (1 + x) ^ (a / x) = exp ((a / x) * ln (1 + x)) #

# = exp ((a / x) * (x - x ^ 2/2 + x ^ 3/3 - …)) #

# = exp (a - a * x / 2 + a * x ^ 2/3 - …) #

# => (1 + bijl) ^ (1 / x) = exp ((1 / x) * ln (1 + bijl)) #

# = exp ((1 / x) * (ax - (ax) ^ 2/2 + (ax) ^ 3/3 - …)) #

# = exp (a - a ^ 2 * x / 2 + a ^ 3 * x ^ 2/3 - …) #

# => (1 + bijl) ^ (1 / x) - (1 + x) ^ (a / x) #

# ~~ exp (a - a ^ 2 * x / 2 + …) - exp (a - a * x / 2 + …) #

# ~~ exp (a) / exp (a ^ 2 * x / 2) - exp (a) / exp (a * x / 2) #

# = exp (a) (exp (-a ^ 2 * x / 2) - exp (-a * x / 2)) #

# ~~ exp (a) (1 - a ^ 2 * x / 2 - 1 + a * x / 2) #

# = exp (a) ((x / 2) (a - a ^ 2)) #

# => ((1 + bijl) ^ (1 / x) - (1 + x) ^ (a / x)) / x #

# ~~ exp (a) ((1/2) (a - a ^ 2)) #

# = e ^ a * (a / 2) * (1 - a) #