import functools
import operator
from collections import deque
from typing import List


P = 998244353

def inv(n):
    return pow(n, P - 2, P)

def edge_num(n: int):
    return (n * (n + 1)) >> 1

def solve(n: int, g: List[List[int]]):
    m = edge_num(n)

    inv_m = inv(m)

    par_ = [0] * n
    siz_ = [1] * n
    def precalc(u: int, p: int):
        par_[u] = p
        for v in g[u]:
            if v != p:
                siz_[u] += precalc(v, u)
        return siz_[u]

    precalc(0, -1)

    def subtree_size(u: int, p: int):
        if par_[u] == p:
            return siz_[u]
        else:
            return n - siz_[p]
    
    def calc_t_1(u: int, ng1: int):
        return n - subtree_size(ng1, u)
    
    def calc_t_2(u: int, ng1: int, ng2: int):
        return n - subtree_size(ng1, u) - subtree_size(ng2, u)


    ans_f = [0] * n

    for x in range(n):
        u_x = m - sum(edge_num(subtree_size(y, x)) for y in g[x])
        ans_f[x] = m * inv(m - u_x) % P

    ans_g = [[0] * n for _ in range(n)]

    par = [[-1] * n for _ in range(n)]

    # x, y, A, B
    dq = deque()
    for x in range(n):
        u_x = edge_num(n) - sum(edge_num(subtree_size(y, x)) for y in g[x])
        for y in g[x]:
            s_y = subtree_size(y, x)
            u_y = u_x - s_y * (n - s_y)
            par[x][y] = x
            dq.append((x, y, u_y * ans_f[x] % P, 0))

    while dq:
        x, z, A, B = dq.popleft()

        par_z = par[x][z]

        s_z = subtree_size(z, par_z)

        u_z = edge_num(s_z) - sum(edge_num(subtree_size(y, z)) for y in g[z] if y != par_z)
        t_z = s_z
        
        ans_g[x][z] = (A + u_z * ans_f[z] + B) % P
        prev_z2, z2 = z, par_z
        while z2 != x:
            next_z2 = par[x][z2]
            t_z2 = calc_t_2(z2, prev_z2, next_z2)
            ans_g[x][z] = (ans_g[x][z] + t_z * t_z2 * ans_g[z][z2]) % P
            prev_z2, z2 = z2, next_z2
        t_x = calc_t_1(x, prev_z2)
        ans_g[x][z] = (1 + ans_g[x][z] * inv_m) % P
        ans_g[x][z] = (ans_g[x][z] * inv(1 - (t_x * t_z * inv_m))) % P

        for y in g[z]:
            if y == par_z:
                continue

            s_y = subtree_size(y, z)
            next_t_z = t_z - s_y

            u_y = u_z - s_y * (s_z - s_y)

            next_A = (A + u_y * ans_f[z]) % P
            next_B = (B + next_t_z * t_x * ans_g[x][z]) % P

            prev_z2, z2 = z, par_z
            while z2 != x:
                next_z2 = par[x][z2]
                t_z2 = calc_t_2(z2, prev_z2, next_z2)
                next_B = (next_B + next_t_z * t_z2 * ans_g[z][z2]) % P
                prev_z2, z2 = z2, next_z2

            par[x][y] = z
            dq.append((x, y, next_A, next_B))

    ans = 1
    for x in range(n):
        ans = (ans + ans_f[x] * inv_m) % P
        for y in range(x):
            ans = (ans + ans_g[x][y] * inv_m) % P
    print(ans)

n = int(input())
g = [[] for _ in range(n)]

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

solve(n, g)