because Frankie is in it
because Frankie is in it
its rated R cause back then they thought that there gore n blood was extremely scary. n there was like a few kissing scenes in it
Rattlesnakes are scary creatures.
nCr + nCr-1 = n!/[r!(n-r)!] + n!/[(r-1)!(n-r+1)!] = n!/[(r-1)!(n-r)!]*{1/r + 1/n-r+1} = n!/[(r-1)!(n-r)!]*{[(n-r+1) + r]/[r*(n-r+1)]} = n!/[(r-1)!(n-r)!]*{(n+1)/r*(n-r+1)]} = (n+1)!/[r!(n+1-r)!] = n+1Cr
Narcotics, needles and northern rubber boa are scary things. They begin with the letter N.
n p =n!/(n-r)! r and n c =n!/r!(n-r)! r
This browser is totally bloody useless for mathematical display but...The probability function of the binomial distribution is P(X = r) = (nCr)*p^r*(1-p)^(n-r) where nCr =n!/[r!(n-r)!]Let n -> infinity while np = L, a constant, so that p = L/nthenP(X = r) = lim as n -> infinity of n*(n-1)*...*(n-k+1)/r! * (L/n)^r * (1 - L/n)^(n-r)= lim as n -> infinity of {n^r - O[(n)^(k-1)]}/r! * (L^r/n^r) * (1 - L/n)^(n-r)= lim as n -> infinity of 1/r! * (L^r) * (1 - L/n)^(n-r) (cancelling out n^r and removing O(n)^(r-1) as being insignificantly smaller than the denominator, n^r)= lim as n -> infinity of (L^r) / r! * (1 - L/n)^(n-r)Now lim n -> infinity of (1 - L/n)^n = e^(-L)and lim n -> infinity of (1 - L/n)^r = lim (1 - 0)^r = 1lim as n -> infinity of (1 - L/n)^(n-r) = e^(-L)So P(X = r) = L^r * e^(-L)/r! which is the probability function of the Poisson distribution with parameter L.
revolting
Rattlesnake, rhinoceros, Rottweiler, rats, radiation, riot and robbery are scary things. They begin with the letter R.
Combinations of r from n without replacement is c(n,r) = n!/(n-r)!r! c(n,r) = 23!/20!3! c(n,r) = 1771.
Depends because if you are talking about the letter it is not scary but the one in Pokemon black and white is terrifying
scary and hard for her family n toughTough hard and scary
Some scary words beginning with the letter N:NaiveNastyNaughtyNauseousNeedleNegativeNeglectNervousNervyNickNimbleNinjaNooseNotchNuisanceNumbNymph