原题链接
- 题意:给出正四面体棱长 (a) 并且给出以正四面体为中心的半径 (r),求出以正四面体中心为球心,给出的半径 (r) 为半径求平面相交面积。
- 题解:当我复习了一下正三棱锥和正四面体,并且顺便看了一下2019年全国一的数学第12道填空,然后这道题就切掉了。
- 代码:
#include<bits/stdc++.h>
#include <bits/stdc++.h>
using namespace std;
typedef long long ll;
typedef long double ld;
const ld pi = acos(-1.0);
void solve() {
//cout << sqrt(3)/3 << endl;
//cout << pi << endl;
ld a, rp;
cin >> a >> rp;
ld r1, r2;
ld b = a/sqrt(2);
r1 = sqrt(a * a + b * b)/2;
r2 = r1 - sqrt(b * b - a * a/3);
ld realr = sqrt(rp*rp - r2 * r2);
//cout << r1 << " " << r2 << endl;
if (rp < r2) {
cout << 0 << endl;return;
}
ld cmp_r1 = sqrt(3)*a/6;
ld cmp_r2 = sqrt(3)*a/3;
ld s1 = sqrt(3)*a*a/4;
//cout << realr << endl;
//cout << cmp_r2 << endl;
if (realr > cmp_r2) {
cout << setprecision(10)<<4*s1 << endl;
} else if (realr < cmp_r1) {
//while (1);
cout << setprecision(10)<< 4 * pi * realr*realr << endl;
} else {
ld r = realr;
ld h = cmp_r1;
ld Cos_1 = (4 * h * h-2 * r * r)/(2 * r*r);
ld du = acos(Cos_1) * 3;
ld s_san = h * sqrt(r * r - h * h);
ld ans = s_san * 3 * 4;
ans += pi * r * r * (2 * pi-du)/(2 * pi) * 4;
cout << setprecision(10) << ans << endl;
}
}
signed main() {
ll t = 1;//cin >> t;
while (t--) {
solve();
}
}