It is hard to recover them when they go submarine on you, but if you wait long enough, they will float to the surface again...
Cool video, get that other one!It is hard to recover them when they go submarine on you, but if you wait long enough, they will float to the surface again...
What?Excellent as always. Brian sure knows a lot about a wide variety of animals. In this video he points out the agonal swimming behavior of the beaver. And he compares it to the curley shuffle of hogs. I've always suspected that the curley shuffle was comparable to the decorticate/deceribrate posturing and chyene-stokes breathing that humans exhibit from cns trauma. But I had no idea that such complicated reflexive activity (like swimming ) could occur .
Excellent as always. Brian sure knows a lot about a wide variety of animals. In this video he points out the agonal swimming behavior of the beaver. And he compares it to the curley shuffle of hogs. I've always suspected that the curley shuffle was comparable to the decorticate/deceribrate posturing and chyene-stokes breathing that humans exhibit from cns trauma. But I had no idea that such complicated reflexive activity (like swimming ) could occur .
Excellent as always. Brian sure knows a lot about a wide variety of animals. In this video he points out the agonal swimming behavior of the beaver. And he compares it to the curley shuffle of hogs. I've always suspected that the curley shuffle was comparable to the decorticate/deceribrate posturing and chyene-stokes breathing that humans exhibit from cns trauma. But I had no idea that such complicated reflexive activity (like swimming ) could occur .
Your bored!If you consider the relationship between centerline of the bore and the line of sight through the scope and the distance of zero it is easy to visualize. The bore is the line that the bullet travels. The centerline of the scope is what you see. For simplicity, let's say that the scope centerline is 2 1/2 inches higher than the bore. If you zero at 100 yds it means that it takes the bullet 100 yds to climb that 2 1/2 inches. At fifty yds then, the bullet will be 1 1/4 inches below your line of sight. And, at 25 yds the bullet will theoretically be 1 7/8 inches below the line of sight. That's why you have to aim high.
Sorry, I should have converted that to metric.
If you consider the relationship between centerline of the bore and the line of sight through the scope and the distance of zero it is easy to visualize. The bore is the line that the bullet travels. The centerline of the scope is what you see. For simplicity, let's say that the scope centerline is 2 1/2 inches higher than the bore. If you zero at 100 yds it means that it takes the bullet 100 yds to climb that 2 1/2 inches. At fifty yds then, the bullet will be 1 1/4 inches below your line of sight. And, at 25 yds the bullet will theoretically be 1 7/8 inches below the line of sight. That's why you have to aim high.
Sorry, I should have converted that to metric.
You have no idea!Your bored!