The laws of motion are so widely applicable that it is hard to name all the uses. From taking a walk, to launching a rocketship these laws should always be taken into account, or else bad things can happen. If there is movement involved, the laws of motion should be consulted. Rather than list all the applications, here are a few good examples.
Newton's first law can be seen easily in the following image. The statue in this picture is clearly not moving, as a result of Newton's first law. An object at rest tends to stay at rest, and this statue does not have any forces acting on it(except for gravity and normal force, counteracting each other), so therefore the statue will not move. Similarly the diagram at the bottom of the page shows a perfect example of the first law. The forces are balanced, weight or gravity, and normal force keep the figure perfectly at rest. However, if the statue were to get hit by the train from the practice problems perhaps, we would see the second part of the first law: an object in motion tends to stay in motion if no force is counteracting it. Eventually, the figure would come to a stop because of friction, but with no friction pieces of the statue would continue on forever. Newton's first law is also an example of why it is so hard to get out of bed in the morning, or off the couch on the weekend. Because your body is at rest, it tends to want to stay at rest because it takes considerable force to move yourself.
A good example of why you should not forget Newton's third law: https://www.youtube.com/watch?v=f3sop7YZT9k When a gun is fired, the force of the bullet being propelled provides the shooter with a recoil of the gun in most cases. The more force on the bullet, the more on the gun. Or take perhaps this man who jumps from a plane onto a trampoline: https://www.youtube.com/watch?v=RbIivGvflkk Crazy and perhaps unrealistic, this man jumped from a plane onto a trampoline and survived. The reason for this is due to the third law of motion. If the man had hit a solid surface, he would not have survived because the opposite reaction of his force would have been death. However, he hit a softer surface, which propelled him up redirecting the opposite reaction of his jump(perhaps a hoax, though still a good example of the third law of motion). In conclusion, the opposite and equal reaction of hitting the trampoline was propelling up, which is why jumping on one is so fun.
Newton's second law can be a little more complicated. Say you are trying to launch a rocket ship, lots of variables can come into play. One of these is the effect of weight. A heavier rocket is going to take more force to launch at the same acceleration, and therefore more fuel. To make a successfully launching rocket you must take into account forces and mass to create an efficient machine. Two great examples of Newton's second law are experiments that the mythbusters did: Lethal Throwing Cards and Ping Pong Balls shown below https://www.youtube.com/watch?v=PxB5CseJqDg https://www.youtube.com/watch?v=msgfm4DHiyc Both objects are of trivial mass, but by the mythbusters were made to create some pretty incredible force. Though neither were quite lethal, both caused some flesh damage, especially the ping pong ball. The difference between the two was the speed. The throwing card was thrown less than ninety miles an hour, while the ping pong ball broke a world record at 1,100 mph! By increasing the speed of the pathetically lightweight objects significant force was created, using Newton's third law.