from collections import deque

n = int(input())

g = [[] for _ in range(n)]
for _ in range(n - 1):
  a, b, c = map(int, input().split())
  a -= 1
  b -= 1
  g[a].append((b, c))
  g[b].append((a, c))

k = n.bit_length()
src = 0
doub = [[src for _ in range(n)] for _ in range(k)]
depth = [None for _ in range(n)]
depth[src] = 0
cost = [0 for _ in range(n)]
dq = deque()
dq.appendleft(src)
while len(dq) > 0:
  cur = dq.pop()
  for nxt, c in g[cur]:
    if not depth[nxt] is None:
      continue
    depth[nxt] = depth[cur] + 1
    cost[nxt] = cost[cur] + c
    doub[0][nxt] = cur
    dq.appendleft(nxt)

for i in range(1, k):
  for v in range(n):
    doub[i][v] = doub[i - 1][doub[i - 1][v]]


def lca(u, v):
  ut = u
  vt = v

  if depth[ut] > depth[vt]:
    ut, vt = vt, ut

  diff = depth[vt] - depth[ut]
  for i in range(k):
    if (diff >> i) & 1 != 0:
      vt = doub[i][vt]

  if ut != vt:
    for i in range(k - 1, -1, -1):
      if doub[i][ut] != doub[i][vt]:
        ut = doub[i][ut]
        vt = doub[i][vt]
    
    if ut != vt:
      ut = doub[0][ut]
  
  return ut


q = int(input())
for _ in range(q):
  s, t = map(int, input().split())
  s -= 1
  t -= 1

  l = lca(s, t)
  print(cost[s] + cost[t] - 2 * cost[l])