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Of course not! There is no direct relationship between electric current and electric energy. They aren't even measured in the same units. Also in most cases small electric currents provide less electric energy that very large electric currents.
If all electric currents provided the same electric energy then the electric current from a flashlight battery that lights the bulb when you turn the switch on could provide the same electric energy as the electric current in a lightning bolt when it strikes... therefore every time you turned on a flashlight the electric energy would destroy the flashlight and electrocute you! As this doesn't happen, the only answer that your question can have is no!
What else can I help you with?
How many wind turbines would be needed to produce the same amount of energy as the average dam?
12
What is the different between rms current and dc current?
Root-mean-square (r.m.s.) values are applied to alternating currents and voltages. The r.m.s. value of an a.c. current and a d.c. current of the same value will both do exactly the same amount of work. For example, 10 A (r.m.s.) is exactly equivalent to 10 A d.c. because they will both do exactly the same amount of work.
Does the brigthness of a bulb stay the same in a parellel circuit no matter how many bulbs are there?
If all the bulbs are connected in parallel, and there is enough current, yes, the brightness will be the same. The voltage (which is the amount of energy in every charge), remains the same for all bulbs
Is solar energy widely accepted?
Not as Much as Wind, Because Solar Panels Cost More Than Wind Turbines , If the Two Create The Same Amount Of Energy The Solar Would Have Costed More to produce the Panels.
Why in equal resistor in parallel circuit have same currents through them?
Because the potential difference V would be the same I = V/R As V remains the same, then as R is the same then I too would be the same
Falling electrons are a source of energy?
Please note that, as with all potential energy, that a "falling" electron will provide energy, while "raising" them back to their previous level requires the same amount of energy. It's not really a source of energy, just a way to store small amounts of energy.Please note that, as with all potential energy, that a "falling" electron will provide energy, while "raising" them back to their previous level requires the same amount of energy. It's not really a source of energy, just a way to store small amounts of energy.Please note that, as with all potential energy, that a "falling" electron will provide energy, while "raising" them back to their previous level requires the same amount of energy. It's not really a source of energy, just a way to store small amounts of energy.Please note that, as with all potential energy, that a "falling" electron will provide energy, while "raising" them back to their previous level requires the same amount of energy. It's not really a source of energy, just a way to store small amounts of energy.
Does Nuclear energy provide a great amount of energy from a small amount of fuel?
Yes, nuclear energy generates a significant amount of energy from a small amount of fuel. Nuclear fission reactions release a large amount of energy from a small amount of uranium or plutonium. This makes nuclear energy a highly efficient source of power.
Does an electron have the same amount of enery in all orbitals?
All of the orbitals in the same energy sublevel (s, p, d, f) have the same amount of energy. For example, each of the 3p orbitals have the same energy and all of the electrons in the 3p orbitals have the same energy.
Do all foods have the same amount of energy?
No, not all foods have the same amount of energy. The energy content of food is measured in calories, and this varies widely depending on the macronutrient composition: carbohydrates, fats, and proteins provide different amounts of energy per gram. For instance, fats provide about 9 calories per gram, while carbohydrates and proteins provide about 4 calories per gram. Additionally, factors like preparation methods and food processing can also influence the energy content of foods.
How can two objects have the same amount of kinetic energy?
Two objects can have the same amount of kinetic energy if they have the same mass and velocity. Kinetic energy is given by the formula KE = 0.5 * mass * velocity^2, so if both objects have the same mass and velocity, they will have the same kinetic energy.
Does the same amount of energy increase the temperature of different sized particles by the same amount?
No, the same amount of energy does not increase the temperature of different sized particles by the same amount. This is because temperature change depends on the mass of the particles; larger particles require more energy to achieve the same temperature change as smaller particles. Therefore, the specific heat capacity and the energy distribution among particles also influence how temperature changes with the energy input.
Does the amount of energy change when one energy changes to another?
No. It just gets moved around. The total amount of energy stays the same.
Why does work have the same unit as energy?
because work is a transformation of energy. If there is some loss of energy in a process then same amount of work will be created. For this reason the unit of work and energy is same.
Why arn't work and energy the same?
Work and energy use the same units; but the term "work" is used in the sense of "transfer of energy" (amount of energy transferred).
As a candle burns the total amount of energy will what?
As a candle burns, the total amount of chemical potential energy stored in the wax is converted into heat and light energy, so the total amount of energy remains the same.
What always happens when an energy transformation occurs?
The total amount of energy remains the same.
If a reaction in one direction releases energy the same reaction in the other direction will what?
If a reaction in one direction releases energy, then the same reaction in the other direction will absorb the same amount of energy. This is because energy is conserved in a reversible reaction, with the release and absorption of energy being equal and opposite.
