import sys

# input = sys.stdin.buffer.readline


def primes(n):
    is_prime = [True] * (n + 1)
    is_prime[0] = False
    is_prime[1] = False
    for i in range(2, int(n ** 0.5) + 1):
        if not is_prime[i]:
            continue
        for j in range(i * 2, n + 1, i):
            is_prime[j] = False
    return (i for i in range(n + 1) if is_prime[i])


def factorization(n):
    arr = dict()
    temp = n
    for i in range(2, int(-(-n ** 0.5 // 1)) + 1):
        if temp % i == 0:
            cnt = 0
            while temp % i == 0:
                cnt += 1
                temp //= i
            arr[i] = cnt

    if temp != 1:
        arr[temp] = 1

    if not arr and n != 1:
        arr[n] = 1

    return arr


N = int(input())
A = tuple(map(int, input().split()))
Q = int(input())
queries = [tuple(map(int, input().split())) for _ in range(Q)]

P = tuple(primes(2000))
acc_list = [[0] * (N + 1) for _ in range(len(P))]
p2i = {pr: i for i, pr in enumerate(P)}
INF = 10 ** 7
for i, a in enumerate(A, 1):
    if a:
        for k, v in factorization(a).items():
            acc_list[p2i[k]][i] += v
    else:
        for p in range(len(P)):
            acc_list[p][i] = INF
for p in range(len(P)):
    for i in range(N):
        acc_list[p][i + 1] += acc_list[p][i]

for p, l, r in queries:
    temp = p
    for pr in P:
        ct = 0
        while not temp % pr:
            temp //= pr
            ct += 1
        diff = acc_list[p2i[pr]][r] - acc_list[p2i[pr]][l - 1]
        if diff >= INF:
            print('Yes')
            break
        elif diff < ct:
            print('NO')
            break
    else:
        print('Yes' if temp == 1 else 'NO')