import sys
input = sys.stdin.readline

class SegmentTree:
    def __init__(self, N):
        n_ = 1
        while n_ < N:
            n_ *= 2
        self.n = n_
        self.arr = [-10 ** 18] * (2*self.n - 1)
    
    def update(self, k, a):
        k += self.n - 1
        self.arr[k] = a
        while k > 0:
            k = (k - 1) // 2
            self.arr[k] = max(self.arr[2*k + 1], self.arr[2*k + 2])
        
    def query_sub(self, a, b, k, l, r):
        if r <= a or b <= l:
            return -10 ** 18
        
        if a <= l and r <= b:
            return self.arr[k]
        else:
            vl = self.query_sub(a, b, 2*k + 1, l, (l+r) / 2)
            vr = self.query_sub(a, b, 2*k + 2, (l+r) / 2, r)
            return max(vl, vr)
    
    def query(self, a, b):
        return self.query_sub(a, b, 0, 0, self.n)

N = int(input())
A = list(map(int, input().split()))
B = [sum(A[0:24])]

for i in range(1, N-23):
    B.append(B[-1] + A[i+23] - A[i-1])

M = len(B)
st = SegmentTree(M)

for i in range(M):
    st.update(i, B[i])

Q = int(input())

for _ in range(Q):
    Ti, Vi = map(int, input().split())
    Ti -= 1
    for i in range(max(Ti-23, 0), min(Ti+1, M)):
        st.update(i, B[i]-A[Ti]+Vi)
        B[i] = B[i] - A[Ti] + Vi
    A[Ti] = Vi
    print(st.query(0, M))