WEBVTT 00:00:14.000 --> 00:00:17.000 Have you ever noticed that it's harder to start pedaling your bicycle 00:00:17.000 --> 00:00:20.000 than it is to ride at a constant speed? 00:00:20.000 --> 00:00:23.000 Or wondered what causes your bicycle to move? 00:00:23.000 --> 00:00:26.000 Or thought about why it goes forward instead of backwards or sideways? 00:00:26.000 --> 00:00:29.000 Perhaps not, and you wouldn't be alone. 00:00:29.000 --> 00:00:31.000 It wasn't until the 17th century 00:00:31.000 --> 00:00:34.000 that Isaac Newton described the fundamental laws of motion 00:00:34.000 --> 00:00:37.000 and we understood the answer to these three questions. 00:00:37.000 --> 00:00:40.000 What Newton recognized was that things tend to keep on doing 00:00:40.000 --> 00:00:43.000 what they are already doing. So when your bicycle is stopped, 00:00:43.000 --> 00:00:46.000 it stays stopped, and when it is going, 00:00:46.000 --> 00:00:48.000 it stays going. 00:00:48.000 --> 00:00:50.000 Objects in motion tend to stay in motion 00:00:50.000 --> 00:00:52.000 and objects at rest tend to stay at rest. 00:00:52.000 --> 00:00:55.000 That's Newton's First Law. 00:00:55.000 --> 00:00:59.000 Physicists call it the Law of Inertia, which is a fancy way of saying 00:00:59.000 --> 00:01:03.000 that moving objects don't spontaneously speed up, slow down, or change direction. 00:01:03.000 --> 00:01:09.000 It is this inertia that you must overcome to get your bicycle moving. 00:01:09.000 --> 00:01:12.000 Now you know that you have to overcome inertia to get your bicycle moving, 00:01:12.000 --> 00:01:14.000 but what is it that allows you to overcome it? 00:01:14.000 --> 00:01:17.000 Well, the answer is explained by Newton's Second Law. 00:01:17.000 --> 00:01:20.000 In mathematical terms, Newton's Second Law says 00:01:20.000 --> 00:01:24.000 that force is the product of mass and acceleration. 00:01:24.000 --> 00:01:27.000 To cause an object to accelerate, or speed up, 00:01:27.000 --> 00:01:29.000 a force must be applied. 00:01:29.000 --> 00:01:31.000 The more force you apply, 00:01:31.000 --> 00:01:34.000 the quicker you accelerate. And the more mass your bicycle has, 00:01:34.000 --> 00:01:36.000 and the more mass you have too, 00:01:36.000 --> 00:01:39.000 the more force you have to use to accelerate at the same rate. 00:01:39.000 --> 00:01:43.000 This is why it would be really difficult to pedal a 10,000 pound bicycle. 00:01:43.000 --> 00:01:48.000 And it is this force, which is applied by your legs pushing down on the pedals, 00:01:48.000 --> 00:01:51.000 that allows you to overcome Newton's Law of Inertia. 00:01:51.000 --> 00:01:54.000 The harder you push down on the pedals, the bigger the force 00:01:54.000 --> 00:01:56.000 and the quicker you accelerate. 00:01:56.000 --> 00:01:58.000 Now on to the final question: 00:01:58.000 --> 00:02:00.000 When you do get your bike moving, 00:02:00.000 --> 00:02:02.000 why does it go forward? 00:02:02.000 --> 00:02:05.000 According to Newton's Third Law, for every action, 00:02:05.000 --> 00:02:07.000 there is an equal and opposite reaction. 00:02:07.000 --> 00:02:11.000 To understand this, think about what happens when you drop a bouncy ball. 00:02:11.000 --> 00:02:13.000 As the bouncy ball hits the floor, 00:02:13.000 --> 00:02:15.000 it causes a downward force on the floor. 00:02:15.000 --> 00:02:17.000 This is the action. 00:02:17.000 --> 00:02:21.000 The floor reacts by pushing on the ball with the same force, 00:02:21.000 --> 00:02:24.000 but in the opposite direction - upward - 00:02:24.000 --> 00:02:27.000 causing it to bounce back up to you. 00:02:27.000 --> 00:02:29.000 Together, the floor and the ball form what's called 00:02:29.000 --> 00:02:32.000 the action/ reaction pair. When it comes to your bicycle, 00:02:32.000 --> 00:02:35.000 it is a little more complicated. As your bicycle wheels spin 00:02:35.000 --> 00:02:39.000 clockwise, the parts of each tire touching the ground 00:02:39.000 --> 00:02:41.000 push backwards against the earth - 00:02:41.000 --> 00:02:45.000 the actions. The ground pushes forward with the same force 00:02:45.000 --> 00:02:48.000 against each of your tires - the reactions. 00:02:48.000 --> 00:02:53.000 Since you have two bicycle tires, each one forms an action/ reaction pair 00:02:53.000 --> 00:02:56.000 with the ground. And since the Earth is really really really big, 00:02:56.000 --> 00:02:59.000 compared to your bicycle, it barely moves 00:02:59.000 --> 00:03:02.000 from the forced caused by your bicycle tires pushing backwards - 00:03:02.000 --> 00:03:11.795 but you are propelled forward.