Kelvin scale is based on the actual kinetic energy of the molecules, where absolute zero is the point at which molecules have minimal kinetic energy.
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One the energy saving appliances, what are the actual savings?
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The actual energy change for a reaction might be different from the predicted energy change due to experimental errors, incomplete reactant conversion, side reactions, impurities in reactants, or inaccurate assumptions about reaction conditions. Kinetic factors such as reaction rates and temperature variations during the reaction can also contribute to discrepancies between predicted and actual energy changes.
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The relationship between the standard Gibbs free energy change (G) and the actual Gibbs free energy change (G) in a chemical reaction is that the standard Gibbs free energy change is the value calculated under standard conditions, while the actual Gibbs free energy change takes into account the specific conditions of the reaction. The actual Gibbs free energy change can be different from the standard value depending on factors such as temperature, pressure, and concentrations of reactants and products.
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There is no actual pollution from solar energy - apart from the pollution caused in the manufacture of the solar panels.
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Mechanical energy is generated from the movement of machine parts. This energy can involve both kinetic energy (from the actual movement of the parts) and potential energy (from the position or configuration of the parts).
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To calculate binding energy, you subtract the rest mass of the nucleus from the actual mass of the nucleus measured. This difference represents the energy required to disassemble the nucleus into its individual nucleons. The formula is: Binding energy = (Z x proton rest mass) + (N x neutron rest mass) - actual mass of the nucleus.
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To convert joules into actual energy, you need to specify the context in which the energy is being used. For example, 1 joule of energy is equivalent to the energy needed to move a 1 Newton force a distance of 1 meter. In different contexts, such as electricity, 1 joule is equivalent to the energy transferred when a one ampere current flows through a one ohm resistance for one second.
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Well it depends on what you mean by that question. If you mean you are using body energy then yes. If you mean actual energy in electricity then no.
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Convection, where the transfer of thermal energy it occurs by the actual movement of the heated air in a circular motion.
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Convection, where the transfer of thermal energy it occurs by the actual movement of the heated air in a circular motion.
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The actual energy consumed in load is inductive load
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YES
But only if you don't consider the massive amounts of energy required to make the wind turbine and get it into position.
The actual energy conversion from wind to electricity is not great but it is free.
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The type of energy of a boulder sitting on a cliff is potential energy. Potential energy is possible energy as opposed to actual energy. If it were to start rolling down the hill, the energy would change to kinetic energy.
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YES
But only if you don't consider the massive amounts of energy required to make the wind turbine and get it into position.
The actual energy conversion from wind to electricity is not great but it is free.
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In theory it should be possible, but I haven't heard of any actual machinery to use lightning energy. Perhaps you could design one.
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Yes, mechanical waves transport energy through the movement of particles in a medium. This energy is carried from one place to another without the actual transfer of matter.
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The ideal mechanical advantage is based on the geometric relationships of a machine's components and assumes no energy losses, while the actual mechanical advantage accounts for friction, inefficiencies, and other factors that can reduce the output compared to the input force. In reality, the actual mechanical advantage is always less than the ideal mechanical advantage due to these energy losses.
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The actual transition of the electron from a higher energy orbital to a lower energy orbital happens almost instantaneously, typically on the order of femtoseconds (10^-15 seconds). This rapid transition results in the emission of light as photons are released.
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The pressure on their bone, center of mass and balance , the amount of energy they burn.
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a wavw
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ATP (adenosine tri-phosphate)
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Yes, there are several types of energy such as kinetic energy (energy of motion), potential energy (stored energy), thermal energy (heat energy), chemical energy (energy stored in bonds of chemical compounds), and more. Each type of energy has different properties and can be categorized based on its form and characteristics.
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Mechanical energy is called mechanical energy because it refers to the energy associated with the motion and position of an object. It encompasses both kinetic energy (energy of motion) and potential energy (energy of position) in physical systems involving mechanical work.
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Resonance energy can be quantified by calculating the difference in energy between the actual energy of a molecule and the energy it would have if the bonds were perfectly localized or delocalized. This can be done using computational chemistry software to perform calculations on the molecule's electronic structure. The resonance energy provides a measure of the stabilization gained from delocalized bonding.
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Intrinsic energy refers to the internal energy of a system that is a combination of its potential and kinetic energies. It is a form of energy that is related to the internal structure and configuration of the system, rather than its motion or position in space.
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Yes, anything that is lifted off the ground gains potential energy due to its height above the Earth's surface. This potential energy can be converted into other forms of energy when the object falls back to the ground.
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Actual yield is always less than theoretical yield because:
1) Much amount of product is lost in experimental techniques i.e. filtration, evaporation etc.
2) Much amount of product is lost in energy i.e. heat energy.
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"Better" is an interesting word. I would guess that theoretical MA beats actual MA any day of the week. Some energy is lost in friction.
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The actual energy is the heat, which represents the motion of atoms and molecules, which is a function of matter. Heat is produced when energy interacts with matter.
Temperature is only a measurement of the energy stored in matter, or more technically that matter's ability to provide or release that energy.
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The type of energy which is stored in a battery is electrical.
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It tells you that the longer the wavelength the lower the energy. From the wavelength, one can also calculate the actual energy by using E = cxh/lambda where c is speed of light, h is Plank's constant and lambda is the wavelength.
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Active energy import is the amount of electrical energy consumed or used by a customer from the utility grid. It is typically measured in kilowatt-hours (kWh) and reflects the actual electricity consumed by a user during a specific period of time.
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Waves transport energy by creating oscillations or vibrations in their medium that propagate from one point to another. This movement of the medium transfers energy without the actual particles of the medium themselves moving over a large distance.
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The transfers of energy by waves are called wave propagation. Waves carry energy through the movement of particles or fields without the actual transfer of matter. This energy transfer can occur through mechanical waves (such as sound waves) or electromagnetic waves (such as light waves).
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A business, company, or comparable organisation. Also any adventure or undertaking, and in some cases, the resourcefulness and energy that is an input into these.
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Not quite. There are different types of energy, though it is often possible to convert one type of energy to another.
The part of the body that uses actual bioelectric impulses is the nervous system, which receives signals from all parts of the body and reacts to control metabolism and motion.
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As thermal energy is added to matter, the kinetic energy of its particles increases, causing them to move faster and further apart. However, the mass of the matter itself remains constant since adding thermal energy does not change the actual amount of material present.
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An ideal machine operates without any energy losses, friction, or other inefficiencies, providing 100% efficiency at all times. In contrast, an actual machine experiences energy losses due to factors such as friction, heat, and inefficiencies in its components, resulting in less than 100% efficiency in its operation.
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Rolling down a hill involves both potential and kinetic energy. At the top of the hill, the object has potential energy due to its height. As it rolls down, this potential energy is converted into kinetic energy as the object gains speed.
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A flashlight battery contains stored chemical potential energy that is converted into electrical energy when the flashlight is turned on. This electrical energy is then used to produce light energy, which is a form of radiant energy.
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You don't. Energy drinks contains ingredients that are known to cause certain effects in humans and energy drinks make their claims based on the effects of those chemicals. If there were a way to quantify, numerically measure, the actual added "energy", most of these so-called energy drink companies would go out of business for selling a lie.
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Potential energy is the energy that an object has due to its position or state, but is not currently being used or active. This type of energy can be converted into kinetic energy when the object is in motion or when conditions change.
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The actual bullet is exactly the same. The 10mm has a longer case, therefore more powder and more energy.
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Lag adjustment in an energy meter accounts for the time delay between the actual energy consumption and the recorded value due to factors like reactive power and power factor. It adjusts the meter readings to accurately reflect the true energy consumption. This helps in billing customers correctly and maintaining the integrity of the energy metering system.
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Solid particles do have energy, known as thermal energy, which is related to the motion of the particles. However, compared to particles in a gas or liquid, the energy of solid particles is typically lower because they have less freedom of movement.
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To calculate the efficiency of glycolysis, first determine the total energy input from the glucose molecule that is available for ATP production. Next, determine the actual energy produced in ATP molecules. Finally, divide the energy produced by the total input energy and multiply by 100 to get the efficiency as a percentage.
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Whenever we do any work some energy will be converted into any form other than the actual input energy for the work to be done
so it is impossible to have the output greater than work input
example : some energy will be converted to heat energy due to friction
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Advantages of energy meters include accurate measurement of energy consumption, facilitating better energy management decisions, and enabling proper billing based on actual usage. Disadvantages can include initial cost of installation, potential inaccuracies in measurement, and the need for regular maintenance to ensure accuracy.
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