Hey, guys. So up until now, we've been dealing with Newton's first and second laws. Remember that the first law is the law of inertia, and the second law is f=ma. And we use f=ma. We're usually just looking at all the forces that act on one particular object. Now we're going to start to see what happens when objects exert forces on each other. So to do that, we're going to need Newton's third law. So let's go ahead and get into it. Newton's third law is otherwise known as the law of action reaction. And basically, what action reaction means or says is that every action or more specifically every force is going to result in a reaction force. And there's a couple of things you should know about this reaction. t's of equal magnitude, meaning it's the same size or the samestrength, but this force acts in opposite directions in the opposite direction. What do I mean by that? So imagine you're person A; you go up to a block, and you push on block B. So we're going to have a force here, and let's just call this force 50 Newtons. Now, because this is the block this is the force of you on the block, I'm going to label this FAB. So this is an action This is a force. So what Newton's third law says is that there's an equal magnitude but oppositere opposite directionreaction force, meaning it's the same 50, but now it's going to point backwards. So how do we draw this Do we draw this like this And do we call this FBA is equal to negative 50 because it points to the left Well, no. Because if every 50 newtons was countered by an equal and opposite 50 on the same object, then nothing could ever move, because everything would always be at equilibrium Every 50 would be countered by a negative 50. So what's really really importantabout Newton's third law is that all forces exist in action reaction force pairs, and these force pairs always act on different objects. Meaning, you, person A, push on the block with 50 Newtons. Thethe block pushes back on u with an equal but opposite 50 newtons So this is FBA that acts on u, and this is going to be negative 50 Newtons. Thattakes careof the fact that itgoesbackwards. So in generalwhat this means is that FAB is the negative of FBA. That's how you'll see this written here in yourtextbooks. So what this means is that thisFAB is the actionandthe reaction is the negative FBA. There's a coupleof realworld examplesthat we'vebecome reallyfamiliarwith. For example, the normal forcewhich is aresponse toa surface push,isactually an action reaction pair. So if this block here is Aand the floor hereis Bthe weight forceof A██ pushes down on the floor. So the weightforce is the action And in response,the floor pushesback onblock A That'sthe reaction,and that'sthe normal force Nowthese thingsactuallydon't have to be touching Another exampleof this is the weight force. So the earthis goingto pull on youtowardsthe earthcenter This is the weight force Thisis mg. This is the action But you alsopullbackonthe earthwithan equalandoppositereaction force. So this is a reaction. So youactually pull on the earth just as hard as it pulls on youTheonlydifference is your mass compared to the earth is way, way smaller, so you'regoing to accelerate more than the earth does. Alright, So let's get into the example here. So you're at 80 kilograms. You stand on a frozen lake with a 40 kilogram ice block, and you push it with 20 newtons So I'm going to drawthis outreal quick This is80 andyou're upagainsta 40 kilogram block And you'regoingto push it We knowthisis Fwhich equalsthisis goingto be 20.AlrightSo what I'm going to do here is I'm going to call you A, the 80 kilogram person, and I'm going to call B the block. So what thatmeansis thatthisforce hereis actually FAB, and that's 20 We want to doin thisfirst part is we want to figure out the forcethat the blockexertson youSo what does thatmean In this§first block in in thisfirstpartherewe want to╒figure out not FAB. We want to figure out FBA. So to do that, we're going to have to stick to the steps. We know the first thing we're going to do is draw a free body diagram. But now that we're talking about multiple objects, what you have to do is you're going to have to draw free body diagrams for each of these objects. Remember,we have 2 now in this problem. So I'm going to go ahead and do that over here.I've got the 40 kilogram block. I've got the weight force. That's what I check for. This is the weight Then I have any applied forces, which I know I have. This is my FAB, and I know this is 20 And then I also have I don't have any tensions. So I've got a weight. I've got a apply force, but I have no tensions I do have a normal force because you're you're on the frozen lake This is the normal force And I've got no friction. So if these are the only 2 verticalorcexordinates,the only horizontal forceis FAB. Now, what we want to do is we want to figure out the free body diagram for you. So you're going tobeoverhere.You have a weight as well. This is W equals mg. And so what we said from Newton's third law is that if you push on the block with_a force of 20newtons, thenthe actionthat'sthe action. Then the reaction is the block pushes back on you with an equal but opposite force. So that means that there's this forceoverherethat points to the leftThisis negative FBA. And so what does that equal Well, if FAB is 20,then that means that negative FBA is negative 20. And so that's the answer. So I'm just going to finish off the free body diagram over here. So thatmeansthat FBA,by Newton's thirdlaw, is equal to negative 20 newtonsRight,Solets keep going now.Now we want tocalculate the acceleration of the block.So now we want to calcalculateAB, so I'm goingto callthatSo what we want to do is if we want to figureout the acceleration of B of the block, we're going to have to use f=ma Butrememberwe're goingto do xm...
6. Intro to Forces (Dynamics)
Newton's Third Law & Action-Reaction Pairs
6. Intro to Forces (Dynamics)
Newton's Third Law & Action-Reaction Pairs - Online Tutor, Practice Problems & Exam Prep
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Newton's Third Law & Action-Reaction Pairs
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Problem
ProblemWhich of the options is NOT an action-reaction pair in the following situation? A book slides across the floor, slowing down due to friction.
A
Friction on the book from the floor & friction on the floor from the book
B
Weight of the book from the Earth & gravitational force on the Earth from the book
C
Weight of the book & normal force on the book
D
Normal force on the book from the floor & normal force on the floor from the book
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PRACTICE PROBLEMS AND ACTIVITIES (10)
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