All types of machines that have parts that move use kinetic energy. These moving parts, no matter the complexity, are a combination or a series of machines that are simple. Simple machines often are used to multiply the amount of the initial effect exerted or to make a direction change of the force. Machines that are simple using kinetic energy consist of the lever, pulley, inclined plane as well as the wheel and axle.
Any levers help us to manage weights that are heavy without much effort due to the multiplying of force applied through mechanical advantage that is simple. It necessitates kinetic energy to work because levers are unable to move any object unless there is some outside force helping to move them. Levers that are simple have 2 parts – the handle, and the fulcrum.
Energy transformation is the change of energy from one type or form to another. One example, a ball when released from a height is one example of an energy change from potential to kinetic energy.
Electrical energy to mechanical
Energy that is electrical energy can be changed into mechanical as well as sound energy in a blender. Energy that is chemical is converted to mechanical energy in cars as the gasoline undergoes combustion for powering the engine. When fuels like gasoline are combusted, the energy that is chemical is changed to light and heat energy.
Plants convert light energy to chemical energy by photosynthesis. During a bungee jump, gravitational potential energy is converted to elastic potential energy. Friction can convert kinetic energy to thermal energy. Waves are converted to mechanical energy to electrical energy. Geothermal energy in active regions geologically can be harnessed into electrical energy.
There are 3 different types of levers that depend on the location of the fulcrum, as well as the load, are positioned and where the original force is applied: 1st, 2nd, and 3rd class. On a 1st-class lever, the fulcrum is positioned in the middle of the load and the effort. On a 2nd class, the effort is on the fulcrum and is in the middle. On a 3rd class, the load and fulcrum are positioned again in a different way.
The Kin3tic Mini is a technology education toolset featuring a portable multi-host networked cluster of Raspberry Pi (RPI) nodes, intended to emulate the design and operation of real-world data centers. The architecture of these Kin3tic Mini segments the cluster into independent partitions modular with each performing dedicated networking or computing functions. The Routing layer offers convenient wireless access to the cluster through IEEE 802.11 Wireless technology, while the computing partitions offer central management for all nodes under a single pane of glass via a proprietary K3 Node Manager program.
There are classes where all of this is taught as well as many articles and information on the internet.