Energy Use, Storage & Expenditure: All You Need To Know

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In summary: I'm not sure how to describe it any more succinctly than that. In summary, Energy is the ability to perform work. It can be stored as potential energy, and it can be used to perform work.
  • #1
mc2_phy
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Came across these questions

What is meant by?
Energy use
Energy storage
Energy expenditure
 
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  • #2
Let's look at what the definition of energy is.

A very basic definition is: The ability for one system to perform work on another. Or just, "The ability to perform work."

Well what is work? A basic definition of work is: In physics, a force is said to do work when it acts on a body so that there is a displacement of the point of application, however small, in the direction of the force. Thus a force does work when it results in movement.

The key here is that energy is a term that allows us to quantify work BEFORE it's performed. Note that both work and energy have units of measurement in joules. This is because they are *almost* the same thing. Instead of saying a bullet will perform X amount of work through the application of a force when it impacts a target, I can simply say "The bullet has X amount of kinetic energy". Plus we can break things up into different "types" of energy, such as kinetic, electric, thermal, etc to make them easier to work with.

So what is Energy Use? It's simply the result of performing work. To perform work you require energy, as energy is the ability to perform work!

How about Energy Storage? Consider a battery. I charge the battery and throw it on a shelf. A little later I take that battery and I use it to perform work in an electric circuit. The fact that I can take that battery, charge it, and then use it later on is pretty much what energy storage is. It's quite simply the storage of energy.

Energy expenditure is the same thing as energy use.
 
  • #3
If you're interested in the mathematics of Energy, here is a mathematical take of it:

Energy use
To have energy is the ability to perform work.
There are several types of energy, the most commonly known being Potential and Kinetic.
Kinetic energy is the energy of an object as a result of its motion.

[itex] E_k = \frac{1}{2} mv^2 [/itex]
where m is mass and v is velocity.

Work is defined as the product of Force and Displacement or the change in energy.

[itex] W = Fd [/itex]
or
[itex] W = \Delta E [/itex]

Energy storage

The storage of energy is known as having potential.
From Wikipedia: "Potential energy is the energy of an object or a system due to the position of the body or the arrangement of the particles of the system"

One example of potential energy (Ep) is Gravitational Potential Energy, which is possessed by all objects within a gravitational field. In the case of the Earth, it is possessed by all objects above the Earth's surface. It is given by the following formula:

[itex] E_p = mgh [/itex] where m is the mass, g is the gravitational field strength (acceleration due to gravity,) and h is the altitude.

**This formula is only effective up to a certain height, I believe it is 1km.
____

One thing to note is that energy is ALWAYS conserved. You cannot destroy or create energy, it can only be transformed from one form to another. In order to illustrate this, take the following example: Say you are standing on top of a cliff and you are holding a rock. The energy that is possessed by this rock is Potential Energy, more specifically Gravitational Potential Energy as it is above the surface of the earth. When you release it, this potential will be converted to kinetic until it hits the ground.

[itex]E_p = E_k[/itex] and therefore:

[itex] mgh = \frac{1}{2} mv^2 [/itex]
 
  • #4
mc2_phy said:
Came across these questions

What is meant by?
Energy use
Energy storage
Energy expenditure

Please note that to use this forum effectively, you should have done some of the investigation yourself. Did you try to look up these things by doing a search first?

If you did and you didn't understand something, that's when it is best to ask your question here and specifically point out what part you didn't understand. If not, you're just asking to be spoon-fed.

https://www.physicsforums.com/blog.php?b=3588 [Broken]

Zz.
 
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  • #5
I have several questions. I'm not asking to have my questions answered in totality here, although I would be appreciative if that happened. Instead, if someone could point me to a site, book, etc. that could answer this. My professors and my google searches haven't been able to get me through my curiosity on this topic.

I am curious about the units that comprise joules: kg * m2/s2.

I understand that a joule is essentially a Newton * Meter. I understand that a Newton is a measurement of acceleration and that a joule, therefore, is simply the measurement of acceleration over a distance (hence, Joules equals Newton*M)... that is, if I'm not misunderstanding things.

However, this description of energy is confusing to me. To me, this doesn't seem to describe what energy is. Instead, it seems to just describe what energy does. Energy is defined as the ability to perform work, but that just sounds like we're describing the effect of energy. The idea I have of energy is elusive and abstract; so it seems there is an injustice to having such a simple, "materialistic" definition of it.

Some examples scenarios of what confuses me: When we say that heat is energy, are we just describing the distance molecules will accelerate in response to heat stimuli?

When electrons relax and emit light, where is the energy there? Are photons the mass that is being accelerated? Or is light just the byproduct of negative energy? And if light is just a byproduct of negative energy, shouldn't there be something more to the definition of energy if something as phenomenal as light can be produced from it?

Maybe there is too much baggage to the word energy? Maybe I am conflating the popular idea that energy is a pseudo-natural presence with the physics definition of energy?
 
  • #6
"You are not the first to pass this way" - Maelstorm attraction at the Norway Pavilion, Epcot.

https://www.physicsforums.com/blog.php?b=3203 [Broken]

Zz.
 
Last edited by a moderator:
  • #7
tomdam said:
I am curious about the units that comprise joules: kg * m2/s2.

I understand that a joule is essentially a Newton * Meter. I understand that a Newton is a measurement of acceleration and that a joule, therefore, is simply the measurement of acceleration over a distance (hence, Joules equals Newton*M)... that is, if I'm not misunderstanding things.

A Newton is the unit for force. It is the amount of force required to accelerate one kilogram at one m/s2. Note that a Newton is NOT acceleration. It is a force.

However, this description of energy is confusing to me. To me, this doesn't seem to describe what energy is. Instead, it seems to just describe what energy does. Energy is defined as the ability to perform work, but that just sounds like we're describing the effect of energy. The idea I have of energy is elusive and abstract; so it seems there is an injustice to having such a simple, "materialistic" definition of it.

But energy doesn't "do" anything. It is simply an abstract quantity that represents certain things about a system of interacting objects.

Some examples scenarios of what confuses me: When we say that heat is energy, are we just describing the distance molecules will accelerate in response to heat stimuli?

I don't think heat is energy, rather heat is energy transfer between objects through thermal interactions. I think thermal energy is what would be most appropriate here.
http://en.wikipedia.org/wiki/Thermal_energy

When electrons relax and emit light, where is the energy there? Are photons the mass that is being accelerated? Or is light just the byproduct of negative energy? And if light is just a byproduct of negative energy, shouldn't there be something more to the definition of energy if something as phenomenal as light can be produced from it?

The acceleration of mass is not the only form of work. And there are several different ways to define a Joule, such as the work required to produce one watt of power for one second. When you move charges to produce an EM wave you must perform work on those charges, and thus it requires energy to do so.

Maybe there is too much baggage to the word energy? Maybe I am conflating the popular idea that energy is a pseudo-natural presence with the physics definition of energy?

I don't even know what "pseudo-natural presence" means. Energy is clearly defined in physics, even if it is not easy to understand.
This isn't to say that my post is ALL there is to say about energy of course...
 
  • #8
mc2_phy : i asked for myself the same questions about 2 years ago:P... and i found it by myself and am happy now Drakkhith is "confirming me" my knowledge:P thanks Drakkhith haha.. and i posted a thread about heat and thermal energy and i think i just found the answer in Drakkhith post so thanks again:P
 
  • #9
I have also a question : the energy carried by an ElectroMagnetic wave has the ability to perform work like what?
 
  • #10
ZapperZ said:
Maelstorm attraction at the Norway Pavilion, Epcot.

Zz.
Really?
tomdam said:
I understand that a joule is essentially a Newton * Meter.

However, this description of energy is confusing to me. To me, this doesn't seem to describe what energy is. Instead, it seems to just describe what energy does.
"What it is, what it shall be, what it was." -Robin Williams as Adrian Cronauer as Walter Cronkite

What it does is what it is. [me]
 
  • #11
tonyjk said:
I have also a question : the energy carried by an ElectroMagnetic wave has the ability to perform work like what?
Like moving an electric car.
 
  • #12
Drakkith said:
I don't even know what "pseudo-natural presence" means. Energy is clearly defined in physics, even if it is not easy to understand.
Energy is very easy to understand because it is clearly defined. The problem is that people are not satisfied with the definition because for some reason they feel like it should be more complicated than it is.
 
  • #13
tonyjk said:
I have also a question : the energy carried by an ElectroMagnetic wave has the ability to perform work like what?

How about moving the charges in an antenna so you can listen to the radio or watch TV? Or ejecting electrons from metals? Or breaking molecular bonds and damaging our DNA?
 
  • #14
Thank you all for your replies. You have definitely helped me to better understand energy. I also better understand why I get confused about it and how I can get beyond my confusion.
 

1. What is energy use?

Energy use refers to the amount of energy consumed by individuals, organizations, or countries. It includes the use of all types of energy, such as electricity, natural gas, and renewable sources like solar and wind power.

2. How is energy stored?

Energy can be stored in different forms, such as chemical, mechanical, or electrical energy. Some common methods of storing energy include batteries, compressed air, and pumped hydroelectric storage.

3. What is the difference between energy expenditure and energy consumption?

Energy expenditure is the amount of energy that is used for physical activity and metabolism, while energy consumption is the total amount of energy that is consumed by an individual or organization. Energy expenditure is a subset of energy consumption.

4. How does energy use impact the environment?

Energy use has a significant impact on the environment, primarily through the emissions of greenhouse gases and other pollutants. The burning of fossil fuels for energy is a major contributor to climate change and air pollution, which can have harmful effects on human health and the environment.

5. What are some ways to reduce energy expenditure?

There are several ways to reduce energy expenditure, including using energy-efficient appliances and vehicles, conserving energy at home and in the workplace, and utilizing renewable energy sources. Additionally, individuals can reduce their energy expenditure through lifestyle changes, such as walking or biking instead of driving, and using public transportation when possible.

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