def resolve(): n, m, q = map(int, input().split()) edges = [[] for _ in range(n)] for _ in range(m): u, v = map(lambda x: int(x) - 1, input().split()) edges[u].append(v) edges[v].append(u) u = decompositon(edges) for _ in range(q): x, y = map(lambda x: int(x) - 1, input().split()) if u.same(x, y): print("Yes") else: print("No") def decompositon(edges): in_cnt = [len(x) for x in edges] q = [i for i, x in enumerate(in_cnt) if x == 1] u = UnionFind(len(edges)) while q: i = q.pop() for j in edges[i]: u.union(i, j) in_cnt[j] -= 1 if in_cnt[j] == 1: q.append(j) return u class UnionFind: def __init__(self, n: int) -> None: self.n = n self.parent = [-1] * n self.groups = n def find(self, x: int) -> int: if self.parent[x] < 0: return x else: p = x while self.parent[p] >= 0: p = self.parent[p] while self.parent[x] >= 0: self.parent[x], x = p, self.parent[x] return p def union(self, x: int, y: int) -> bool: x = self.find(x) y = self.find(y) if x == y: return False if self.parent[x] > self.parent[y]: x, y = y, x self.parent[x] += self.parent[y] self.parent[y] = x self.groups -= 1 return True def size(self, x: int) -> int: return -self.parent[self.find(x)] def same(self, x: int, y: int) -> bool: return self.find(x) == self.find(y) def members(self, x: int) -> list: root = self.find(x) return [i for i in range(self.n) if self.find(i) == root] def roots(self) -> list: return [i for i, x in enumerate(self.parent) if x < 0] def group_count(self) -> int: return self.groups def sizes(self) -> dict: return {i: -x for i, x in enumerate(self.parent) if x < 0} def all_group_members(self) -> dict: from collections import defaultdict d = defaultdict(list) for i in range(self.n): p = self.find(i) d[p].append(i) return d def __str__(self) -> str: return '\n'.join('{}: {}'.format(k, v) for k, v in self.all_group_members().items()) if __name__ == '__main__': resolve()