Examples of usable items include a smartphone, a desktop computer, and a bicycle. Examples of unusable items could be a broken lightbulb, a deflated Basketball, or a rusted screwdriver.
Usable energy refers to the energy that can be effectively converted and utilized for various purposes, while total energy represents the sum of all energy present within a system, including both usable and unusable forms. Usable energy can be harnessed to perform work, whereas total energy includes potential energy that may not be readily available for use.
Perpetual motion machines are theoretical machines that aim to create unlimited energy without an external source but violate the laws of thermodynamics, making them impossible to create in reality. Other examples of machines that create unusable energy could include inefficient or poorly designed machines that waste energy in the form of heat, noise, or other non-usable forms.
Heat energy is not necessarily unusable, but it can be challenging to harness efficiently. While some forms of energy, like heat generated by friction or waste heat, may be difficult to convert into useful work, technologies such as heat engines, thermoelectric generators, and heat pumps can help capture and utilize heat energy effectively.
Non-usable energy refers to forms of energy that cannot easily be converted into a usable form for practical purposes. This could include energy that is lost as waste heat in a system or energy that is stored in a form that is difficult to access or utilize. Examples include excess heat produced by engines or energy trapped in inaccessible underground reservoirs.
Friction does not "destroy" energy, but rather it transforms some of the mechanical energy into heat energy due to the resistance between two surfaces in contact. This transformation of energy can lead to a loss of usable energy in a system.
The digestive system processes food into usable and unusable materials by chemical digestion. The usable materials are transported via the cells throughout the body while the unusable materials are sent to the large intestine where it waits to be disposed of.
get the minerals,nutrients and other healthy nutrients from the unusable to make it usable water..
Not at all. The First Law states that energy is conserved - you can't create energy out of nothing, or make it disappear. The Second Law distinguishes usable from unusable energy, and states that the amount of unusable energy will increase over time - but the total (usable plus unusable energy) will still remain constant.Not at all. The First Law states that energy is conserved - you can't create energy out of nothing, or make it disappear. The Second Law distinguishes usable from unusable energy, and states that the amount of unusable energy will increase over time - but the total (usable plus unusable energy) will still remain constant.Not at all. The First Law states that energy is conserved - you can't create energy out of nothing, or make it disappear. The Second Law distinguishes usable from unusable energy, and states that the amount of unusable energy will increase over time - but the total (usable plus unusable energy) will still remain constant.Not at all. The First Law states that energy is conserved - you can't create energy out of nothing, or make it disappear. The Second Law distinguishes usable from unusable energy, and states that the amount of unusable energy will increase over time - but the total (usable plus unusable energy) will still remain constant.
Yes it is true. It is a usable product.
Usable energy refers to the energy that can be effectively converted and utilized for various purposes, while total energy represents the sum of all energy present within a system, including both usable and unusable forms. Usable energy can be harnessed to perform work, whereas total energy includes potential energy that may not be readily available for use.
it is a factory that make unusable stuff like pipes in things we can use
Perpetual motion machines are theoretical machines that aim to create unlimited energy without an external source but violate the laws of thermodynamics, making them impossible to create in reality. Other examples of machines that create unusable energy could include inefficient or poorly designed machines that waste energy in the form of heat, noise, or other non-usable forms.
Water can be made usable through the process of purification, which can involve physical filtration, chemical treatment, and if needed, advanced technologies like reverse osmosis or distillation. This process removes contaminants and impurities from the water, making it safe for consumption and other uses. It is important to follow environmental regulations and guidelines to ensure the safety and sustainability of the water purification process.
reusable :D fusible usable unusable inexcusable
Nitrogen gas (N2) is unusable by most organisms because they lack the ability to convert it into a usable form like ammonia (NH3) or nitrate (NO3-). This process, known as nitrogen fixation, is carried out by certain bacteria and archaea.
Because elemental nitrogen is unusable by plants. It must be converted in the soil to a usable form and adsorbed by soil particles for plants to be able to utilize it.
You can't as the game has been scratched down into a few layers of the disk making the game unusable or only temporarily usable in some cases.