![]() ![]() These are all the different kinds of variations that you might see. You might see situations where it returns to the same height or might go even to a lower height or even a higher height like this. So because it's moving sideways and up and down, it takes these two dimensional parabolic paths some other examples that you might see or where you throw in something downwards or even upwards. Instead, it goes to the side while also falling because, just like in vertical motion, it's still under the influence of only gravity. These air really the main types that you might see, but because we're forgiving, it's, um, sideways velocity. We're gonna give it some sideways velocity, whether we're throwing it perfectly horizontal, whether we're throwing it downwards or upwards. What's different about Project on motion is that we're not going to throw something up and down. If you take an object and you throw it straight up, then it comes straight back down on along the same direction that you through it because it's under the influence of only gravity. So we've actually seen something similar to this before when we studied one dimensional vertical motion. That's the important part under the influence of Onley gravity. So project on motion is gonna happen whenever you taken object and you throw it and it moves into dimensions. We're just gonna use equations that we've already seen before, so let's check it out. I'm gonna introduce you to the main types of project on motion that you'll see, and I'm gonna show you that to solve them. For now, there's a lot of different variations of problems and project on motion, and it might seem that there's different ways to solve them. ![]() You absolutely will need to know how to solve problems. This is a super important topic in physics. Hey, guys, for the next couple videos, we're really talking about projectile motion.
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