import sys

def ilog2(n):
  if n <= 0:
    return 0
  else:
    return n.bit_length() - 1

def _pack(pack, shamt):
  size = len(pack)
  while size > 1:
    npack = []
    for i in range(0, size - 1, 2):
      npack.append(pack[i] | (pack[i+1] << shamt))
    if size & 1:
      npack.append(pack[-1])
    pack = npack
    size = (size + 1) >> 1
    shamt <<= 1
  return pack[0]

def _pack2(seq1, seq2, shamt):
  M1 = _pack(seq1, shamt)
  M2 = _pack(seq2, shamt)
  size = len(seq1) + len(seq2) - 1
  block_size = 1 << ilog2(size - 1)
  return M1, M2, shamt * block_size

def pack_sequence2_mod(seq1, seq2, mod):
  size = min(len(seq1), len(seq2))
  max_value = (mod - 1) ** 2 * size
  shamt = max_value.bit_length()
  return _pack2(seq1, seq2, shamt)

def unpack_sequence(M, size, shamt):
  needed_sizes = []
  s = size
  while s > 1:
    needed_sizes.append(s)
    s = (s + 1) >> 1
  ret = [M]
  for needed_size in needed_sizes[::-1]:
    mask = (1 << shamt) - 1
    nret = []
    for c in ret:
      nret.append(c & mask)
      nret.append(c >> shamt)
    ret = nret[:needed_size]
    shamt >>= 1
  return ret

def poly_mul_mod_builtin(poly1, poly2, mod):
  M1, M2, shamt = pack_sequence2_mod(poly1, poly2, mod)
  size = len(poly1) + len(poly2) - 1
  seq = unpack_sequence(M1 * M2, size, shamt)
  return seq # x % mod

def solve():
  stdin = sys.stdin
  write = sys.stdout.write

  _, _, N = map(int, stdin.readline().split())
  A = [0] * (N + 1)
  B = [0] * (N + 1)
  for n in map(int, stdin.readline().split()):
    A[n] = 1
  for n in map(int, stdin.readline().split()):
    B[N - n] = 1
  Q = int(stdin.readline())
  C = poly_mul_mod_builtin(A, B, 2)
  write("%s\n" % "\n".join(map(str, C[N:N+Q])))

solve()