I have a method that I wrote below.

```
public static long nlgn(double[] nums) {
long start = System.nanoTime();
if(nums.length > 1) {
int elementsInA1 = nums.length/2;
int elementsInA2 = nums.length - elementsInA1;
double[] arr1 = new double[elementsInA1];
double[] arr2 = new double[elementsInA2];
for(int i = 0; i < elementsInA1; i++)
arr1[i] = nums[i];
for(int i = elementsInA1; i < elementsInA1 + elementsInA2; i++)
arr2[i - elementsInA1] = nums[i];
nlgn(arr1);
nlgn(arr2);
int i = 0, j = 0, k = 0;
while(arr1.length != j && arr2.length != k) {
if(arr1[j] <= arr2[k]) {
nums[i] = arr1[j];
i++;
j++;
} else {
nums[i] = arr2[k];
i++;
k++;
}
}
while(arr1.length != j) {
nums[i] = arr1[j];
i++;
j++;
}
while(arr2.length != k) {
nums[i] = arr2[k];
i++;
k++;
}
}
double max = nums[nums.length - 1];
double min = nums[0];
double[] farthestPair = {max, min};
long end = System.nanoTime();
return (end - start);
}
```

This is basically a merge sort operation that, once sorted, will find the smallest and largest numbers. I believe this method is operating in O(n lgn) time. However, when I run the function with an input size that doubles upon each run (1000, 2000, 4000, etc.), I get the following results when I time it in nano time.

```
First pass: (0.12) seconds
Second pass: (0.98) seconds
Third pass: (0.91) seconds
Fourth pass: (0.90) seconds
Fifth pass: (1.33) seconds
```

My question is, given these results, do these results suggest that this method is running in O(n lgn) time?