import collections
import math

def solve(N, L, R):
    if N < 1000:
        return solve_exact(N, L, R)
    else:
        return solve_approximate(N, L, R)

def solve_exact(N, L, R):
    fs = {0: 1.0}
    for n in range(N-1, -1, -1):
        nfs = collections.defaultdict(float)
        for v, p in fs.items():
            for dice in range(1, 7):
                nv = v + dice
                if nv + n <= R and nv + n * 6 >= L:
                    nfs[nv] += p * 1/6
        fs = nfs
    cum = 0.0
    for v, p in fs.items():
        if L <= v and v <= R:
            cum += p
    return cum


def solve_approximate(N, L, R):
    E = N * 3.5
    Var = N * 35.0/12.0
    r = (R + 0.5 - E)/math.sqrt(Var)
    l = (L - 0.5 - E)/math.sqrt(Var)
    return phi(r) - phi(l)
                

def phi(x):
    return (1.0 + math.erf(x / math.sqrt(2.0))) / 2.0

N = int(input())
L, R = map(int, input().split())
print(solve(N, L, R))