The kinetic energy (KE) has been considered as an object of any shape, size, or mass, is a form of energy, since it has already been set in motion. At the same time, which is an object that is in motion, it is, regardless of the direction, for example, vertical or horizontal, it is the im. The bigger the object is, the faster it moves, the more energy it has. If the work is done, it brings energy to the house, if it speeds up, and the more will be the kinetic energy is dependent on the speed and the distance you have to go.
In order to help people understand the concept, and, therefore, be calculated on a number of issues, there is a formula for this. It is a 0.5 times the mass multiplied by the square of the speed. The mass is, of course, is that the mass of an object, the speed, the speed of an object, such as a city square. This formula shows that the kinetic energy of an object is proportional to the square of the speed. Along with all this, it turns out that it depends on the square of the speed.
It is a scalar value, which means that it has a direction. This means that the kinetic energy of an object is represented by the value itself. The unit of measure for the calculation of the kinetic energy is a joule of energy, as potential energy, and work. It not only depends on the motion of the object, but also from the rest.
An example of this is in a plane that is a huge amount of energy, that is when the flight was attributed to the mass and the velocity. Another example is when a ball is thrown from a pitcher. At first glance, it may seem that there is very little, very little is K, but this is not the case at all. In fact, it is a baseball, a ball is thrown from a container, it may more of a mess than an eighteen-wheeler truck. The only reason this is possible is because of the baseball, the ball is moving at an extreme speed, because it has a very low weight. An eighteen-wheeler, it must also move very slowly, because it has a large mass, such as a baseball.
Thus, the kinetic energy of an object is determined by its mass and its velocity. In this case, the kinetic energy does not depend on the direction along which it is moving. In addition, in some cases, the kinetic energy of the small object, it can be more than just huge.