import sys
input = sys.stdin.readline
mod = pow(10, 9) + 7
sys.setrecursionlimit(pow(10, 8))

def power(x, y):
    if   y == 0: return 1
    elif y == 1     : return x % mod
    elif y % 2 == 0 : return power(x, y//2)**2 % mod
    else: return power(x, (y-1)//2)**2 * x % mod
    
def mul(a, b):
    return ((a % mod) * (b % mod)) % mod

def div(a, b):
    return mul(a, power(b, mod-2))
def div2(a, b):
    return mul(a, modinv(b))

def modinv(a):
    b, u, v = mod, 1, 0
    while b:
        t = a//b
        a, u = a-t*b, u-t*v
        a, b, u, v = b, a, v, u
    u %= mod
    return u

def cmb(n, r, mod):
    if ( r<0 or r>n ):
        return 0
    r = min(r, n-r)
    return g1[n] * g2[r] * g2[n-r] % mod

NNN = (10)
g1 = [1, 1]
g2 = [1, 1]
inverse = [0, 1]

for i in range( 2, NNN + 1 ):
    g1.append( ( g1[-1] * i ) % mod )
    inverse.append( ( -inverse[mod % i] * (mod//i) ) % mod )
    g2.append( (g2[-1] * inverse[-1]) % mod )

N, M, K, p, q = map(int, input().split())
b1 =0
for _ in range(M):
    b1 += int(input())
b2 = 0
for _ in range(N-M):
    b2 += int(input())

#print(q-2*p)
#print((q-2*p)/ q)
pp = div2((q-2*p), q)
#print(pp)
ppp = power(pp, K)
#print(ppp)
print(mul(mul(1+power(pp, K), b1) + mul(1-power(pp, K), b2), inverse[2])% mod)