from decimal import Decimal def resolve(): import sys input = sys.stdin.readline q = int(input()) xa, ya, xb, yb, xc, yc = map(Decimal, input().split()) delta = Decimal(1e-14) try: c = circumcenter((xa, ya), (xb, yb), (xc, yc)) d = distance(c, (xa, ya)) + delta except ValueError: a = sorted([xa, xb, xc]) b = sorted([ya, yb, yc]) if xa != xc: d = (a[-1] - a[0]) / 2 + delta c = (a[0] + d, b[0]) else: d = (b[-1] - b[0]) / 2 + delta c = (a[0], b[0] + d) for _ in range(q): x, y = map(Decimal, input().split()) # print(distance(c, (x, y)), d) print("Yes" if distance(c, (x, y)) <= d else "No") def circumcenter(pa, pb, pc, ignore=False): # 外心 a, b, c = side_length(pa, pb, pc) try: return barycentric_coordinate( pa, pb, pc, sin_a(a, b, c) * cos_a(a, b, c), sin_a(b, c, a) * cos_a(b, c, a), sin_a(c, a, b) * cos_a(c, a, b), ignore, ) except: if ignore: return [] else: raise ValueError("points on a straight line") def barycentric_coordinate(pa, pb, pc, ga, gb, gc, ignore=False): # △BCP:△CAP:△ABP=ga:gb:gcであるときの点Pの座標 try: g = ga + gb + gc return [(a * ga + b * gb + c * gc) / g for a, b, c in zip(pa, pb, pc)] except: if ignore: return [] else: raise ValueError("points on a straight line") def side_length(pa, pb, pc): # 3辺の長さ return distance(pc, pb), distance(pa, pc), distance(pa, pb) def area(a, b, c): # 面積 s = (a + b + c) / 2 return (s * (s - a) * (s - b) * (s - c)) ** Decimal("0.5") def sin_a(a, b, c): # sin∠BAC s = area(a, b, c) return max(min(s * 2 / b / c, 1), -1) def cos_a(a, b, c): # cos∠BAC return max(min((b**2 + c**2 - a**2) / (2 * b * c), 1), -1) def sin_o(pa, pb): # sin∠AOB a, b, c = side_length([0] * len(pa), pa, pb) return sin_a(a, b, c) def cos_o(pa, pb): # cos∠AOB a, b, c = side_length([0] * len(pa), pa, pb) return cos_a(a, b, c) def sin_t(pa, pb, pc): # 3つの角のsin a, b, c = side_length(pa, pb, pc) s = area(a, b, c) return s * 2 / b / c, s * 2 / c / a, s * 2 / a / b def cos_t(pa, pb, pc): # 3つの角のcos a, b, c = side_length(pa, pb, pc) return cos_a(a, b, c), cos_a(b, c, a), cos_a(c, a, b) def distance(pa, pb): return sum([(i - j) ** 2 for i, j in zip(pa, pb)]) ** Decimal("0.5") def midpoint(pa, pb): return [(x + y) / 2 for x, y in zip(pa, pb)] if __name__ == "__main__": resolve()