Order Disorder
In our universe, energy is everything. The entire universe is built off energy constantly flowing. The definition of energy is, “The strength and vitality required for sustained physical or mental activity.” This strength and vitality in every object varies however, all objects are can all support themselves and are active so this allows from physical or mental activity. Our brain processing information to our body to react and our body reacting to this is a perfect example of how energy works. We would not be able to live without the energy being used in our daily lives. To refrigerate food, turn on the lights, heat up the stove, walk to school, drive a car, etc. All these activities require some form of energy. Energy is so
The types of energy can assist in proving the importance of energy in general. First, potential energy is useful because everything has dormant energy in their composition or energy gained from increase in vertical distance. This allows for structural supports added for increase in distance and chemical reactions that allow for oxygen, water and other basic necessities. Next, kinetic energy is energy to allow for motion. To walk, run, drive, move, etc. this requires kinetic energy. In addition, thermal energy is a form of kinetic energy which is measured in temperature. This is useful to identify and react to heat and cold temperatures and manipulate each of these to assist us. Electricity, the force of electric charge can assist humankind because of its ability to power lightbulbs and technology. Technology is a source of entertainment, social interaction and information. Lightbulbs allows us to illuminate the region we are in. Lastly, gravitational energy is force between to two objects with a distance exerted from each object. This can be used to assist with hydroelectricity and gravity. Hydroelectricity come from waterfalls that use the gravity to power the energy transferred to electricity. Gravity being exerted constantly, we can use this to allow for many different activities like acceleration due to gravity or gravity allow us to stay on earth and not float away. To conclude, energy makes up our entire universe and the way we use this energy is important because could there ever be a point in time where we run out of
When something gives us energy, it means more than to just give us the required power to work or move along for such a specific task. In biological terms, it means to have your energy be transported through your body and placed by cells into biomolecules. Biomolecules such as lipids and carbohydrates. It then stores that energy in our body.
Another science that relates to potential energy is kinetic energy. Kinetic energy is the energy something has because an object is moving. Dropping a soccer ball converts the potential energy to kinetic energy. In all, energy makes things happen which is why energy can also be called the
Energy can never be created or destroyed. Energy may be transformed from one form to another, but the total energy of an isolated system is always constant.
In some way, shape, or form energy is one of the several reasons why there is an existence of life on earth. Cellular respiration and Photosynthesis form a cycle of that energy and matter to support the daily functions that allow organisms to live. Photosynthesis is often seen to be one of the most important life processes on Earth. Photosynthesis is a process by which plants use the energy of sunlight to convert carbon dioxide and water into glucose so other organisms can use it as food and energy. It changes light energy into chemical energy and releases oxygen. This way organisms can stay alive and have the energy to function. Chlorophyll is an organelle generally found in plants, it generates oxygen as a result too. As you can see without
In the book, Obasan, Joy Kogawa uses imagery to convey different symbolic meanings in Naomi's life. Naomi goes through a journey in the novel to uncover the truth of her past. One of the many literary elements that the novel possesses is animal imagery that emphasizes meaning and contributes to the novel's theme. Several animals are mentioned throughout the novel to represent Naomi's emotions and her journey. Kogawa utilizes the several instances of animal imagery in her novel, Obasan, to reveal the nature of power, both physically and emotionally, and the victim of power—Naomi. Animals such as the chicks represent Naomi's helplessness and innocence as she lived in a world without her mother or knowledge of her history. The animals that Kogawa uses, kittens, chicks, and birds, are not strong enough against humans. They are not lions or tigers that can do harm upon other animals or human beings, therefore this makes them easily threatened and killed by power.
Another positive note is that this powerful energy is relevant, which means it does not have to be created. If this energy was too relevant then we humans would have to try and c...
In the article,"Energy Story", it tells you all about basic energy and how scientists found out how it works. It tells you about each part of an electron and what part is what. The center is called the Nucleus. Electrons and atoms move together to create what is known as electricity. Atoms and electrons flow through an object
Note: The first seconds of the universe were pure energy. That energy was transformed into the matter and energy that is recognizable today. Einstein’s notable equation, E=MC2, predicted the relationship between energy and mass. In other words, energy is equal to mass, multiplied by the speed of light squared.
...eas that had been around for a long time but had also been thought to be different. He put together the concept of mass and the concept of energy and showed that they are actually the same thing when you think about them correctly. So his equation, E = mc2, theE is for energy and the m is for mass, and he showed that given a certain amount of mass you could calculate the amount of energy it contains. Or, alternatively, given an amount of energy, you can determine how much mass you can create from it. So mass and energy, he showed, are the ultimate convertible currencies. They are different carriers of some fundamental stuff that you can call energy, with mass simply being one manifestation of energy. But there are other manifestations: heat and light, radiation, and so forth. These are now recognized to all be different facets of one idea, one entity called energy.
Energy is a daily necessity we take advantage of without fully understanding the consequences of creating it. The electrical energy that we use as consumers comes from power plants that then convert other types of energy to electricity. The most common way this is done is from burning fossil fuels. The only benefits to this method is the low cost and the growing demand for oil, natural gas heating, and other products refined from fossil fuels. The repercussions of this cheap practice is the environmental and physical harm caused by the fumes and other byproducts of using fossil fuels. One main set back of this method is that people may not continue using it forever. Fossil fuels are nonrenewable resources that have come from millions or years
Energy is a property of matter which can be transferred to other matters or transformed into different forms, although it cannot be created or destroyed. A common definition of energy is that it is the ability to do work. Work is the transfer of energy. Work is done on an object when energy is transferred to that object. If one object transfers energy to another object then the first object does work on the second object. Work is when a force is applied over a distance. To calculate work, find the dot product of an object’s displacement and the force applied. In SI units, energy is measured in joules (“Work, Energy and Power”, 2015).
We depend on energy; nothing in our daily lives could be possible without it. Electricity primarily comes from burning fossil fuels or using nuclear reactors. But the plain truth is, we are running out of fossil fuels. Our known oil deposits will run out in approximately 35 years, and if we increase the use of natural gas and coal to make up for the energy loss, our natural gas will last for 45 years and coal deposits will deplete in 75 years.
It is the reason for the great technological movement of the 21st century. Its applications are used on a day-to-day basis. What is this form of energy? It is electricity. Electricity is defined as a form of energy from the existence of charged particles. The charged particles are either positive or negative (protons or electrons). Moreover, through the same principal, the phenomenon of magnetism is also applied on a day-to-day basis. Magnetism is defined as either an attractive or repulsive force between objects due to an electric charge. To thoroughly understand the strength of electricity and magnets, it is vital to first be cognizant of where and when they were discovered.
There are many different sources of energy that are naturally available throughout the world in different forms. There are two types of energy: renewable and non-renewable. Non-renewable is made from fossil fuels; which can include oil, coal and wood. They are non-renewable because they are not regenerated immediately, and it can take between 100-100,000 years to make a fossil fuel. They are important because they produce constant energy throughout the world. This is because of their high availability. The problem with non-renewable energy is that, when burned, they release harmful greenhouse gasses into the atmosphere. Especially when the world, as a whole, is using too much too quickly; and therefore the earth cannot replenish the fuels naturally or quickly enough. Renewable sources of energy are obtained from different natural sources. A benefit about this kind of energy is that it can be replaced and it is sustainable. Renewable energy is important because it is used significantly in electricity generation and heating. It is also important because it can be replenished, and therefore it is better for the environment.
The study of the relation between internal energy, heat, and work is the basic foundation in thermodynamics. How they interact can be applied to mechanics and experiments. For example, if you add heat to a piston, the gas contained inside will begin to expand and cause displacement, doing work. Gases are heavily studied in thermodynamics, because the internal energy is easier to account for. Gases only have kinetic energy because the potential energy is negligible since the far apart molecules cannot interact with each other. The four main types of thermodynamic processes- isovolumetric, isothermal, adiabatic, and isobaric-all involve the relation between work, heat, and internal energy on gases.