#include <iostream>

 #include <cstdio>

 #include <cstring>

 #include <cstdlib>

 #include <cmath>

 #include <algorithm>

 #include <string>

 #include <queue>

 #include <stack>

 #include <vector>

 #include <map>

 #include <set>

 #include <functional>

 #include <cctype>

 #include <time.h>

 using namespace std;

 const double eps = 1e-;

 const int INF = <<;

 const int MAXN = ;

 const int MAXR = ;

 const int MAXNODE = MAXN*MAXR;

 struct DLX {

 // 行编号从1开始，列编号为1~n，结点0是表头结点；结点1~n是各列顶部的虚拟结点

     int n, sz; // 列数，结点总数

     int S[MAXN]; //各列结点数

     int row[MAXNODE], col[MAXNODE]; //各结点行列编号

     int L[MAXNODE], R[MAXNODE], U[MAXNODE], D[MAXNODE]; //十字链表

     int ansd, ans[MAXR]; // 解

     void init(int n)  { //n是列数

         this->n = n;

         //虚拟结点

         for (int i = ; i <= n; i++) {

             U[i] = i; D[i] = i; L[i] = i-; R[i] = i+;

         }

         R[n] = ; L[] = n;

         sz = n+;

         memset(S, , sizeof(S));

     }

     void addRow(int r, vector<int> columns) {

         //这一行的第一个结点

         //行没有设头结点，每一行连成一个环形

         int first = sz;

         for (int i = ; i < columns.size(); i++) {

             int c = columns[i];

             L[sz] = sz-; R[sz] = sz+; D[sz] = c; U[sz] = U[c];

             D[U[c]] = sz; U[c] = sz;

             row[sz] = r; col[sz] = c;

             S[c]++; sz++;

         }

         R[sz-] = first; L[first] = sz-;

     }

     //顺着链表A，遍历s外的其他元素

     #define FOR(i, A, s) for (int i = A[s]; i != s; i = A[i])

     void remove(int c) { //删除c列

         FOR(i, D, c) {

             L[R[i]] = L[i]; R[L[i]] = R[i];

         }

     }

     void restore(int c) { //回连c列

         FOR(i, U, c) {

             L[R[i]] = R[L[i]] = i;

         }

     }

     bool vis[MAXN];

     int f() {

         int ret = ;

         FOR(c, R, ) vis[c] = true;

         FOR(c, R, ) if (vis[c]) {

             ret++; vis[c] = false;

             FOR(i, D, c) FOR(j, R, i)

                 vis[col[j]] = false;

         }

         return ret;

     }

     void dfs(int d) { //d为递归深度

         if (d+f()>=ansd) return ;

         if (R[] == ) { //找到解

             ansd = min(ansd, d); //记录解的长度

             return ;

         }

         //找S最小的C列

         int c = R[]; //第一个未删除的列

         for (int i = R[]; i != ; i = R[i]) if (S[i]<S[c]) c = i;

         for (int i = D[c]; i != c; i = D[i]) { //用结点i所在的行覆盖第c列

             remove(i);

             for (int j = R[i]; j != i; j = R[j]) remove(j); //删除节结点i所在行覆盖第c列

             ans[d] = row[i];

             dfs(d+);

             for (int j = L[i]; j != i; j = L[j]) restore(j); // 恢复

             restore(i);

         }

     }

     int solve() {

         ansd = INF;

         dfs();

         return ansd;

     }

 };

 DLX solver;

 vector<int> columns;

 int n, m, k;

 double a[MAXN][];

 double b[MAXN][];

 double G[MAXN][MAXN];

 int check(double x) {

     solver.init(n);

     for (int i = ; i < m; i++) {

         columns.clear();

         for (int j = ; j < n; j++) if (G[i][j]<=x)

             columns.push_back(j+);

         if (!columns.empty()) solver.addRow(i+, columns);

     }

     return solver.solve();

 }

 int main() {

     #ifdef Phantom01

         freopen("HDU2295.txt", "r", stdin);

     #endif //Phantom01

     int T;

     scanf("%d", &T);

     while (T--) {

         scanf("%d%d%d", &n, &m, &k);

         for (int i = ; i < n; i++)

             scanf("%lf%lf", &a[i][], &a[i][]);

         for (int i = ; i < m; i++)

             scanf("%lf%lf", &b[i][], &b[i][]);

         double l = , r = , mm;

         for (int i = ; i < m; i++) {

             for (int j = ; j < n; j++) {

                 G[i][j] = sqrt((b[i][]-a[j][])*(b[i][]-a[j][]) + (b[i][]-a[j][])*(b[i][]-a[j][]));

                 r = max(r, G[i][j]);

             }

         }

         while (abs(r-l)>eps) {

             mm = (l+r)/;

             if (check(mm)>k) l = mm;

             else r = mm;

         }

         printf("%.6f\n", r+eps);

     }

     return ;

 }