Hey, guys. I got a practice problem for you. We're going to go ahead and draw this free body diagram for the following situation. You're taking a block and pushing it up against a vertical wall. So I've got the wall like this. We know it's rough. We're going to take this block and push it up against the wall. And we know that the force we're pushing with is at a 45-degree angle like this. We also know that the block is going to be sliding upwards, which means the velocity is going to go up like this. So, we have to draw a free body diagram. Remember, this isn't just a free body diagram. And instead, we're going to have to look for all of the forces here in this particular order to draw our free body diagram. We draw this as a dot or a box like this, and we start off with the weight force. Remember that the weight force always acts downwards, right, unless you're otherwise told towards the earth's center. So that means that your weight force is going to be down like this. Next, we look for any applied forces. This happens whenever you have direct pushes or pulls, and we know we have one here. This is our push at 45 degrees. So, we know that this force here is this f, and we know that it acts at 45 degrees. You don't necessarily have to draw the angle in the diagram. Alright? So that's our force. Now we look for tensions. Tensions happen to be ropes or strings, and there are no ropes or strings in this problem, so there's no tension. And then now normal. Normal happens when you already have two surfaces that are in contact. So, this block here is being pushed up against this wall. Those two surfaces are touching each other. So there's a normal force that acts perpendicular to the surface. So if the wall is like this, then your normal force is going to be pointing out like this. It doesn't always point upwards. So that's your normal force. So that means we draw it in our free body diagram. So that's our normal. And then finally, when you have frictions, frictions happen whenever you have two rough surfaces in contact. So here we have a rough vertical wall. And remember, friction always acts opposing motion. So in our diagram here, we had the velocity of our block was upwards, which means our friction force is going to oppose that upward velocity. So we know we have a friction force that points downwards like this. That's our free body diagram, guys. Let me know if you have any questions.