What is energy?

I have no formal education in physics, just a lifelong fascination with the limits of what we can know about the universe, Dr Lincoln has been one of the most easily digestible educators out there, many thanks ❤️

I like Dons way. He describes the fundamental topics of science in an easy to understand way, but he never talks down to you,. You are an excellent teacher, Don

The only thing that surprised me was the mention of Émile du Châtelet. I have been reading the history of science for sixty years but somehow have never heard of her. I am satisfied to think of energy as the capacity to do work.

"If mass is just energy swirling in a single location, with the swirling energy not moving - basically a stationary tornando - then we're back to the definition of kinetic and potential energy".
That's mind blowing! 🤯

It's worth noting that interpretation models also have symmetries. Under implication symmetry, "time symmetry implies energy conservation," TS>EC, forms a doublet with "energy conservation implies time symmetry," EC>TS. Another successful physics search rule is "simpler is deeper." Under simpler-is-deeper, Noether's delightful and beautiful TS>EC argument places Minkowski's infinitely differentiable and functionally complex spacetime to the left of a small set of conserved quantities. EC>TS, in contrast, places the conserved quantities, including energy, to the left of spacetime and hypothesizes that sufficiently complex conservation scenarios approximate Minkowski's spacetime. Besides scoring better under simpler-is-deeper, EC>TS ("Rehteon's theorem") also removes the needless century-long separation of relativity and quantum theory that Minkowski created by inserting a concept of spacetime whose precision exceeds anything possible with Einstein's original 1905 real-matter clocks and rulers. EC>TS, in contrast, unavoidably requires space and time to be variable-resolution quantum properties of matter.

Ive been watching this channel for a while now. As a 6th grader, i never really understood my teachers, I thought everything was complicated and very difficult to learn. Thank you, Don. I can guarantee if this channel was the only reason i was able to achieve good marks in my physics exam. Much appreciated, keep it up.

i loved your historical discussion of the evolution of the notion of energy and momentum. please have a series of videos about this historic evolution.

I think there's no one video or book explaining the concept of energy this much simple, complete and at the same time persice. It fulfils different physics knowledge levels. Thanks a lot.

Another exquisite video, thank you Dr. Lincoln. That said, I'm sticking with Dr. Richard Feynman who said, "It is important to realize that in physics today, we have no knowledge of what energy is." "Energy is the interaction and motion of fields..." - a much more eloquent description than "the ability to do work" but still unsatisfying in defining what energy actually IS. Just a layman but my two cents.

This is the single best, intuitive description of potential energy I've heard
Before, all I could ever find was either vague or just not something that could be measured in any real way

I watch a lot of youtube shows related to physics explanations. PBS Spacetime, ScienceClic, The Science Asylum etc... This is the first time I've ever seen something like the backdrop of a chalk board with things that I am surprised to say I actually recognize the writing on. Whenever I've seen similar backdrops, I've always glossed over it as nothing I'd be able to make sense of but this time I looked and couldn't believe I recognized over half of it. I love all of you educators that break down the concepts in physics to the rest of us. I may still not be able to solve any of those equations, (I only took basic calc) but the fact that I can now just recognize them and what they represent is awesome. It makes me want to learn more math again. Thank You.

Another incredibly informative video from Fermilab. These are top knotch, please keep spreading the knowledge

This was beautiful. It's always amazing to get a new insight and a different perspective so that you can modify or re-interpret what you've learned. I remember a grad school prof saying that every time he read "Feynman Lectures on Physics", he learned something new, and this was a person whose colleagues considered him to be brilliant. This video was like that for me.

This channel has helped educate me on many things that previously had been beyond my level of understanding. I still get a little confused on some things but its becoming much more clearer on how things in physics work. Thank you, 🙂👍

The one thing I've never liked about the term "energy" is that sometimes it's used in reference to a property of something (e.g. the energy of a photon) while other times it refers to energy as "stuff" in its own right (e.g. when someone says that photon ARE energy flying through space). I definitely prefer the former use over the latter. Saying that energy is "stuff" is a bit like saying "height is stuff". It's not actually a thing that exists on its own without context though, it's a property of things that exist in fields. It's kind of like how velocity isn't an object, it's a property of an object you can measure. Same with energy, it's not an object itself but a property of objects (some which have mass and some which don't) that you can measure.

@Fermilab, and @Dr. Don Lincoln, thank you for trying to educate us science enthusiasts. 😊 Dr. Lincoln is a great teacher and luckily mankind will always have these lectures.

Love this channel. Definitely learned new things about energy conservation.

I like your description. So many people think that energy is a physical, tangible "thing." As if someone could "get" an energy and carry it around in their pocket. But really, it's just an abstract concept. Like you say: "a capacity." Or an ability. No one says they can carry a capacity around, just like no one says mystical "ability to move things" pours out of crystals and into one's hands. But they say that about energy because it's almost completely misunderstood by the majority of people. Even a high percentage of physics students get it mixed up.

Thank you Doctor Lincoln, I appreciate your efforts to educate us and I try to learn. Keep up the good work.

this is by far the most relevant, enlightening, and important video I have ever seen! in my life! I'm 70

Thank you for a great video. However, I think it missed an idea more fundamental and therefore enlightening than any of those expressed. Energy is the ability to cause change. (I don't think that word was used even once!) A system without any energy is unable to change, under any circumstances, without the introduction of an external ability to create change. Potential energy recognises the existence of a blockage that prevents change from happening. On releasing the blockage, change happens and physicists say that potential energy was converted to kinetic energy. An example of a blockage is a table that stops a spoon from falling. Without the table, it falls, demonstrating that the ability to change (the energy) existed when the spoon was on the table. Another is the structure within an atom that keeps the ability to change within the atom. Disturb that structure and that ability to make change can be released. That release can cause the release of the energy blocked inside neighbouring atoms which can then escalate - called a chain reaction, and we have an atomic bomb.
It is instructive to think about what a system that cannot change (has no energy) would be like. My imagination says that the value of every field within that system would be the same at every point.

Interestingly enough, as I was eating breakfast, I asked myself “what exactly is energy?” And later this video appears on my notification. Very nice coincidence.
While eating breakfast I said to myself that energy is the battle between existence and non-existence via virtual particles popping in and out of existence itself which is the fundamental basis of all that exists.

I feel like this is a video that never tells you what energy is, but more what we observe from energy.

We miss the 'stache Dr. Lincoln!
Thanks for bringing this educational content to anyone who's willing to listen.

I always like the fluidity of your narrative while explaining the ideas with ease but fairly comprehensively.

I'm suddenly imagining gravitational wells around or within every single person object and thing. These wells when they intersect, like water droplets, can get larger in radius in direct proportion to the amalgamated mass focused into a single space.
I think that if enough of these gravity wells accumulate, they create the planetary scale gravitational effects we see. Just as merging black holes result in a larger event horizon.
The warping of spacetime is only strong and noticeable on larger scales but on smaller scales I imagine it is there. Everywhere there is mass, there is a warping of spacetime, a "gravity well" at all scales. Weak at small scales, strong at accumulative large scales. There might not actually be any "gravitons" and instead gravity may simply be an emergent property of mass at sufficiently large scales and/or mathematical extremes.
Since mass and energy are considered equivalent, it can then be thought that gravity is therefore just another property of energy as it affects spacetime dependent on how much of it is concentrated in one place.
It could also also be said that the more massive a thing is, the more "energetic" it is; the higher it's energy content is.
I'm just an autistic lamen though. All of this fascinates me

When people ask what energy is, I think what they want to know is what is *pure* energy, removed from its various forms. I think a good analogy for answering this is money. Asking "What is pure energy" is like asking "What is pure money". Energy--like money--is an abstraction we use to describe how various things interact. Money comes in the form of dollars, yen, pesos, etc.; energy comes in the form of heat, gravitational, rotational energy, etc.
"Pure money" detached from any form doesn't exist, because money is a category, a category we made that describes things people exchange for other things. Energy is similarly an abstract concept we made that helps us keep track of how one phenomenon will result in another phenomenon.

Still, what is energy?

He’s not explaining what energy is, he’s explaining how energy manifests itself

My mind has been blown 🤯 I always was thought energy was ALWAYS conserved. Thanks Don. I look forward to learning more.

This is awesome, that FermiLab funds the production of this video series that brings the frontiers of modern physics to us lay people. It’s the closest I will ever come to sitting in a professional experimental physics team meeting. And Don does an outstanding job at conceiving and presenting this. 🥇🥇🥇

Thank you for this. I have for a long time tried to understand « what is energy ? », and my readings haven’t so far allowed me to find a satisfactory answer. It isn’t too hard to understand what energy ‘does’ or what constraints it obeys, but what it ‘is’ remains an open question. The clearest suggestion so far seems to be that it is « an accounting principle ». Be as it may, it seems that in the current state of knowledge in physics the two fundamental constituents of Reality (this unknown thing with capital R) are Energy and Information, both of which are conserved. So the next question, is: how do the two relate? and are there fundamental equations that describe how the two relate in different conditions? Thanks again!

A man who can explain difficult things in many different ways can be called a teacher. Doctor Lincoln gets an A+ from me. Thanks.....and...."What's up, Doc?".

Absolutely love this channel! It’s always interesting and I’ve learned a to! 👍

So far, it appears that the universe started as something tiny and started to expand to what we can observe and detect today. It also appears that anything we can observe or detect is made from extremely tiny particles which interact and combine with each other based on some fundamental predetermined rules. We have identified quit a few of these extremely tiny particles and have identified quit a few of the rules these particles follow to interact and combine. Perhaps most of the particles and most of the rules but there probably are more.
We also discovered that anything that we can observe or detect is made from the same basic stuff and we call this stuff energy. We know this because we have figured out how to calculate a value or quantity of energy for anything that we can observe or detect. I think we can say the fabric of the universe is space time but we can also say that the fabric of the universe is energy time because we now know that space is not empty and is also some type of energy and we can calculate or at least estimate how much energy is in a given volume of space.
It also appears that after the universe started to expand, no more energy was added or removed as it continued to expand. We do not know what the rules were that determined the amount of energy in the universe nor what caused the energy in the universe to start expanding. The rules for how energy expands, transforms, interacts and combines cause energy to cycle from concentrated to diluted states. Although the cycles can be repeated almost an infinite number of times, there will be a time when they stop because as the cycles keep repeating, the total amount of energy in the universe keeps becoming more and more diluted. We call this rule entropy.
At some point in time, all the energy will become so diluted that it will not be able to cycle back into more concentrated states and we think this is when the universe ends. We still do not know the rules before the universe started to expand and we still do not know the rules after the universe ends and there are probably still many rules that we do not know about that causes the energy in the universe to cycle back and forth from concentrated to diluted states as it continues to expand.

To me, Energy was always "measure of how much can happen without outside influence":
Potential energy is how much can a thing move (towards center of gravity) "on it's own".
Kinetic energy is how many glass windows will an object break before it stops.
Thermal energy is how much heat can escape object before it reaches absolute zero.
Chemical energy is how mush heat you get by setting something on fire.
Baby energy is how long will baby survive after it's parent have gone mad...

This video blows a persons mind as it has to be gone over several times with many pauses to explore each thought separately. I have not done this yet but I plan to.

I am MOVED by this excellent lecture. 🤓
This lecture is full of Potential. 😏

The word "Energy" has many wider meanings, we know that all the matter is composed of Energy, and we know what matter is made of, clumping together of zillions of atoms, bound by a strong force, so gravity, momentum, inertia, centripetal force, are all the properties of matter, and including magnetism, unless Energy first created the matter, these properties or laws of physics only came after matter was created, which then yields other forms of sub-energies like Kinetic and potential energy, we also know that prime source of energy is our Sun, however it was Prime Energy that created the Sun first and started the nuclear reaction to give us the heat and light forms of energy on which we all depend and all life form. So there is a deeper form of Energy that first created all the matter. This Prime or Ultimate source of all Energies is the creative force that gave birth to our universe and matter. That is the true definition of Energy, the unseen, and is infinite. No instruments can measure it. We can only speculate what it may itself be made of , perhaps it is composed of an infinite sea of sub-atomic particles, which first made up individual atoms. It may well be what we know as the dark matter or dark energy.

Many thanks ! While watching I thought there are 3 forms of energy. The third form is teaching.

My first visit, certainly not my last, he is soo brilliant he makes something so interesting,
absolute master of his skills..great and thank you.

Thank you! Great video, as usual!
I have one question that I would love if you could make a video about them:
1. Is there any theoretical maximum limit for frequency of an electromagnetic wave?

if you travel towards a galaxy on a fast spaceship , its light will be bluer, but it is the same light that you see redder on Earth. So the energy of that light is not changed.your perception did.

Awesome video as always.
@Fermilab, I would suggest embedding links to previous videos within the video when they are referenced, rather than just in the description, similar to @SpaceTime. It makes it more likely the viewer will click through and check out those older videos, and eventually get hooked when they discover how much great content this channel has :)

Nunca me pierdo un video de Don Lincoln

This may be one of the most important videos I've ever seen, as it rocks one of the concepts of the universe that I have held to be "pure truth" since my first science classes in middle school: the idea of conservation of energy. That the expansion of spacetime means that the total amount of energy in the universe is decreasing seems self-evident after listening to Dr. Lincoln, but it would probably never have occured to me. In a way, it seems related to Boyle's Ideal Gas Law: the temperature and pressure of a gas in a perfectly insulated container are both proportional to the volume of the container: decrease the volume, and the pressure and temperature both increase. Expand the volume, and the temperature and pressure decrease. Temperature and pressure of a gas are both manifestations of the kinetic energy of motion of the molecules of whatever gas(es) are in the container. If one thinks of the entire Universe as a container holding all of the matter in it, everything from superclusters of galaxies down to individual atoms of hydrogen and the soup of subatomic particles (photons, neutrinos, etc) that fill the void between galaxies, then as the Universe expands, one might expect that the "temperature" of the everything is slowly decreasing. The wavelength of the CMBR might be slowly lengthening over eons of time, and that in the far distant future, trillions of years from now, when all available light elements have been cycled through stars as fusion fuel, and all radioactive elements have decayed into stable isotopes, the temperature of everything will probably approach (but never quite reach) absolute zero.
Physics is truly mind-bending, and I am so thankful that Dr. Lincoln that he has the ability to relate these concepts in terms that even I, without the mathematical tools that real physicists have, can understand.

I think Dr Don just told us that matter is largely the energy binding quarks, so then the topology of space time is a function of the distribution of energy.
A discussion of the relationship between energy and entropy would be helpful.

A particle is a mass of distinct, durable waves.

I very much enjoyed the information you presented in this video. What I really respect about it is that you talked about two women, Emilie du Chatelet and Emmy Noether with the same reverence as Newton and Leibniz. In my Physics and Philosophy education I never learned about women's contribution to the science and art of Physics (except Marie Curie). I only knew of Emmy Noether because in graduate school I coauthored a paper on Noether's Theorem in Classical Physics. It saddens me that our educational system is so male dominated that we seldom learn about the import contributions made by women. It is kind of sad that the fact you talked about these great minds makes your video exceptional, but it is also great that your video is exceptional.

It’s nice to have something to watch that explains relative physics to the common man. Thank you.

Is it possible that some of the energy driving expansion is sapped from photons and neutrinos as they travel through empty space and get red-shifted? Or alternatively, is there a frame of reference in which that's how it appears?

As good as this video is, we STILL don't really know what energy really is. We may never will.

When I was in high school I contemplated the definition of energy.
My thought was "the ability to do work" was a horrible definition, as it doesn't take into account energy that doesn't influence our physical environment, such as mental.
The definition I came up with is "unbalanced forces".
I still believe this definition is more accurate and inclusive.

My intuition about energy comes from thinking about physical models of the world in terms of some high dimensional "phase space". I don't have any physics training, but I have long been interested in some parts of higher math used in discrete modelling and computer science (and natural language), so I'm not sure if I am thinking of phase spaces correctly. But since humans can't visualize higher dimensions, it's common to think of a projection of the phase space to a 2-dimensional landscape, with energy as the third dimension of height above the landscape. That way, you can think of trajectories and dynamics, and local highs and lows, laws of motion and locally conserved quantities (assuming a closed systems). This gives me an intuition to think of different kinds of energy by fixing a choice of axes (or degrees of freedom) in the state space, then projecting to a simpler space of properties you are measuring. The height, energy, is a way of conceptualizing the capacity to change (e.g. mechanical motion, electrodynamics, or something more complex and biological). The sources and sinks of energy give a way of thinking about causation in the model, hopefully in a way that can be made precise enough to compute or simulate.

Hello Dr. Lincoln @Fermilab - was this video inspired by a recent conversation you had in Orlando about Kugelblitzes, hmm? :-)
Thank you for producing this. What I think is interesting is that a moving, unaccelerated object has "kinetic" energy, but within its own reference frame it is stationary. The thing having what we call "potential" energy is actually not stationary, but following a straight line through curved spacetime - in the same way that a basketball is actually travelling along a straight line through a curvature in (mostly) time. I think I need to consider kinetic and potential energy the way we consider electricity and magnetism to help my brain make sense of the difference.
Thanks again, and after I watch this a couple more times I look forward to your next videos.

Energy can be defined as motion, or the motion of particles, which are too small to directly detect. That which makes up energy is groups of masses of quantum particles.
Potential energy is groups of quantum particles at relative rest with the potential for more motion.
Kinetic energy is the motion of quantum particles that was at relative rest that have move to more motion or excited. Kinetic energy is power.
Thermal energy is the heat radiated from moving particles at rest. Thermal power is the excited heat of moving particles.
Electrical energy is the rest motion of electrons. Electrical power is the excited motion of electrons.
Chemical energy is the rest motion molecules. Chemical power is the excited motion of molecules.
Nuclear energy is the rest motion of atomic nuclei. Nuclear power is the excited motion of atomic nuclear.
Etc.
Energy as motion forms fields, or force fields. A field is the radiant motion of energy. As energy moves it radiates over a distance collectively, forming fields.
Force is the pressure (which can be push or pull particles and objects) of the influence of radiant energy within its or a field.

The best explanation for energy is that it is a state function. It is a way of assigning a number to a physical system that is hella useful for predicting what can and cannot happen to the system. It doesn't help that the word energy is used for several related, but not quite identical things. The ability to do work, or the "accessible" energy, is the one people most commonly think of, but then they get tripped up when they think about heat or potential energy of chemical bonds, which can only be made to do work in special circumstances, and can't understand why you can't make a chemical engine running on pure water.

At a fundamental level, all types of energy can be reduced to potential and kinetic, and massless particles like photons create fields of potentials. How can even potential and kinetic energy be unified into a single thing? I have a conception for how, but I've never seen it phrased this way, and I might be way off base (I'm not a physicist and I'm confused as hell). Energy is the quantity of displacement from zero in a field. Probably a quantum field, but I'm visualizing it as a classical field. All fields have values that overlap in the same point in spacetime. These field values can sometimes be converted to a different form (e.g. pair production from photons, weak interactions, etc.) , but the sum of their displacements can never change. The sum of the displacements within a system is equal to that system's absolute internal energy. When the displacements are stationary (or possibly modeled as standing waves), you have potential energy, and when they are moving, you have kinetic.
Am I on the right track? The difficult thing about understanding potential energy is that it doesn't seem to actually exist anywhere in conventional explanations. An apple held 1 meter off the ground is said to have gravitational potential energy which transforms into kinetic if it's dropped. But this potential "feels" fictitious without something like this to make it tangible and unify it with kinetic energy.

I love Fermilab.

Pausing at the start: I think energy is an abstract quantity of a physical system which is conserved under various operations, and is conserved for all systems which exhibit time-translation symmetry. The value of energy in a system relates to the work potential in the system.

This guy deserves more subs guys.

I'm not a physicist, but it seems to me this video does not explain what energy is, but different ways in which it can be observed. The more I watch videos about the subject the more I am convinced that energy is a form of interrelationship or communication between different things/elements and that even those elements are the result of a simpler form of communication that eventually makes up matter and even space itself.

And just like school I have no idea what he is talking about.

Really appreciate your intended emphasis on female physicists bringing so much knowledge and light to the scientific table... excellent presentation as usual.

I'm sure this has been considered, but I've never heard anyone mention this: Does the loss of energy of photons as they travel through expanding space not account for dark energy? If space is expanding and needs energy to do that, and photons travelling through expanding space are losing energy, then is it possible it's their energy that is converted into what we call dark energy? I do realize that this explanation is incomplete since it doesn't describe why the energy conversion happens in the first place. But it's an interesting thought and as I said, I don't recall this being discussed in any physics TH-camrs' videos.

I have a definition of energy... Suppose you're watching a video of a ball in a slow straight trajectory going into a jar of peanut butter, without more informations. The video stops and you have to decide what happens next. There's in fact, two possibility :
1) You're watching a normal speed video, shot in space : since the ball is going slow, the ball will simply slowly bounce off the jar.
2) You're watching some ultra- slow-motion video : the jar and maybe the ball are going to explode in millions of pieces all over the place.
The importance fact here : you can't decide which video you're watching until you know the time speed of the video. So we can deduce : energy is relative to time.
Now you want to know, between the two situation, indepently of time, what's different. You realize : it's the speed of sound in the objects. In the first video : sound goes fast, therefor forces has enough time to propagate into the objects and inverse the global motion of the ball. In the second video : the ball goes faster than the sound. The wave of pressure due to the contact doesn't have time to propagate into the objects : so both explodes. So kinetic energy is relative to an absolute property of the objects : the speed of sound inside them. So my conclusion is energy is relative to the scale of sub components of systems, which in turn define a time scale. (for instance the speed of sound in objects in theory allow you to measure the time scale of videos of them)

I think kinetic energy and potential energy are literally the same thing, but we don't yet understand gravity or atoms.
I think energy is preserved at a cosmic scale, but we don't yet understand where it is going to or coming from.
I think neither time nor space are fundamental because both collapse in black holes and at the big bang. I think they emerge from something we don't understand enough to see yet.

I'm only a layman, but my favorite definition of energy is change in momentum. When you do work, you're changing the momentum of something. Push against a wagon and get it rolling, you've changed its momentum. Go around to the other side and stop it rolling, more change of momentum and more work you've done. If you've done this to an automobile in neutral with the engine and brake off, then you probably feel like you've done some work.
When I've thought about this stuff, it always seemed like momentum was the fundamental concept and energy emerges from momentum. For instance, the mass/energy in things like protons is the change in momentum of those more fundamental particles bouncing around inside them, every bounce being a change in momentum. As I understand it, from a ('cough cough') PBS space time youtube video I saw, inertial mass comes from the fact that, as for instance you're pushing against that wagon, accelerating it and changing its momentum, the fundamental particles will be bouncing harder in the direction opposite to the one you're pushing while you're pushing, 'resisting' your push.
I don't imagine there's any way to detect this, but I wonder if the universe expands equally in all directions all the time, so that its 'center' (to the extent such a thing can be imagined) stays the same, then momentum is sort of conserved in that action in one direction has equal reaction in the opposite.

Energy is the ability to work, from our high school physics teacher. still remember it all these years. Mrs. Lainez 😌

"In any system of energy, Control is what consumes energy the most.
No energy store holds enough energy to extract an amount of energy equal to the total energy it stores.
No system of energy can produce sum useful energy in excess of the total energy put into constructing it.
This universal truth applies to all systems.
Energy, like time, flows from past to future."
Wailing.

Thank you, Dr Lincoln, for finally giving credit to women in science!

for not so young people .. this channel is filling the black hole left inside by the formal education of past, atleast i can say for India. I don't see how i will ever use this knowledge but it feels satisfying to just "understand"

Commenting before watching. Probably great work Don Lincoln.

Well, with this definition energy will not be the fundamental entity of the nature but a consequence: the onsequence of the motion of fields and their interactions. But then we are faced again with the question of what causes the motion of the fields and their interactions. Looks like we are back to a cicular argument, since motions and interactions can only be understood due to the presence of energy in the first place. Similarly, the existence of fields begs the explanantion about their very existence due to something else which we would like to call energy again. I think energy must be defined and understood independently of its consequences but it is almost impossible how we can do that.

I've never 100% believed that energy is conserved. It's just that "potential energy" is defined in such a way as to make energy appear to be conserved. I could equally claim that, say, the "blueness of the sky" is conserved. If you say no, the sky turns black at night, I can just reply that it has "potential blueness" at night, which will be converted back to actual blueness when the sun rises tomorrow.
OK, I know there must be a flaw in this argument, but I can't see what it is.

While the definition of energy can be very vague, the best I came across was that energy was a number that we associate with the configuration of a system or the motion of a particle. It can also be defined as a quantity that interacts with matter and can bring changes to its shape, state, temperature, configuration or motion.

why do people define energy by what it does and not what it is? Do scientists really know what the heck energy really is or do they know some of the things that energy can do?
You can define something by what it does if there are multiple versions of that thing, but what is it really?

Its wonderful to be living at a time where ordinary people from all walks of life can have instant access to some of the world's top scientific minds.

The thing is, we have absolutely no idea what energy actually is. We can only describe what energy does.

I like videos like this. For me, the questions of what energy is, what momentum is, and so on were a transition from physics to philosophy of physics in the 1990s when I became a private tutor in physics. Based on good textbooks and vocabularies, I concluded that the qualitative aspect of energy is the capacity for action. But I noticed the problem of how to observe the quantity (amount) of energy as clearly as we perceive the quantity of a distance by comparing it with another distance: is mv^2/2 a mere mathematical instrument of doing mechanics? Or is this amount observable in empirical reality? I had a much bigger problem with momentum (mv): what is the qualitative aspect of momentum? Is momentum a mere mathematical instrument of doing mechanics? Or is it a real thing that is observable both qualitatively and quantitatively? As a tutor, I had a problem with how to teach pupils the qualitative aspects of energy, momentum, etc. I discussed these issues with professors at the university, but they were perplexed, thinking I was a crazy enemy. For now, I have solved these problems, but it seems to me that nobody is willing to make changes to the physics textbooks.

Great job on the video! Not that I understand a lot of this but always fun to watch.

A big question I have about energy is how you would define absolute energy; which is something that seems to exist since E=mc^2 and mass warps spacetime. For many types of energy, like kinetic, it's not that hard to define by putting it in relative terms, but for a charge in an opposite polarity field for example you run into the implication that either the charge is at negative energy while in the field or at arbitrarily high energy in empty space. Most descriptions of potential state that there isn't a meaningful absolute potential but as I said earlier there are apparently aspects of physics that do strictly call on absolute energy and absolute potential by extension.

This video is a refreshing cold shower for my brain. thanks!

That point about photons being red-shifted thus losing energy and energy therefore not being conserved is something I don't understand. Isn't it just the doppler effect in action over a longer distance? That's what Varitaisum claims in his video "What Actually Expands In An Expanding Universe?".
So measuring the doppler effect of photons on a local level here on Earth should equally imply the non-conservation of energy then? I thought red-shifting photons in the universe are just a consequence of the constant density of dark energy. The ultimate culprit is still dark energy.
Please help me understand 7:36

This should have been the first video of any physics channel.

I've always thought of energy as "any deviation from any equilibrium". The transition from that deviation towards equilibrium is "work".

The reason why American scientists have never been able to define energy unambiguously accurately is lack of profound knowledge of the English language and physics, although they can pinpoint examples of energy
Energy is actually an ambiguous term for forces which can be either natural or artificial
So, "energy is force to do work "
You guys can see my definition of energy is so simple, but accurately concise without any ambiguity at all
Forces are the fundamental foundation of all forms of matter or existence in the entire infinite space of the universe, and they are created whenever transformations of forms of matter take place
Another example of ambiguity in scientific definition is " the observable universe" which can be interpreted as that the universe is observable while actually human beings have so far been able to observe only an extremely small part of it. It should be put clearly without any ambiguity like this: " Only an extremely tiny part of the universe is observable to human limited knowledge"
Your definition of kinetic energy as to be a thing that can move or vibrate is incorrect because a thing or things which can move is a moving thing or moving things, but not any form of energy
That is why American English is ambiguous, which can make very simple concepts complicated or confusing to students, thus hinders public education.
Energy is any form of force, and kinetic energy is any form of force which makes things move. such as electromotive force emf which drives electrons around in a circuit, gravitational force which pulls objects toward the centre of the Earth, chemical force released in chemical reactions, nuclear force in nuclear fission reactions, air pressure force due to different mass concentrations at different locations in space, applied force by humans and human-invented machines

Your reminding us of scientists of old reminds me of the adage, "If you call me great, it is because I have stood on the shoulders of giants."

I don't buy the claim that redshift indicates a change in (loss of) energy.
- Redshift can occur because of the motion of the observer (Doppler Effect). There's relative motion, so it appears to be a different frequency and thus a different energy. That observed energy is constant, so there is no loss. The problem would be the acceleration of that relative motion, which ought to require energy input and thus where that energy comes from.
- Redshift also occurs from light escaping a gravity well. Since per Einstein's theories gravity is the same as acceleration, light moving 'against' gravity experiences a Doppler Effect, too, and so it appears redder.
There is no loss of energy. Energy is conserved. Instead, it's the observation that the frequency is different than what it would be without relative motion or gravity. Observing that cars on the highway move more slowly when we are also in a car on the highway does not mean they 'lost' energy. It only means our reference is different.

When I was first introduced to E=MC^2 my first question was.. yes but 'what is energy'?
I mean we can understand what mass, and the speed of light are.. But when fission begins converting mass into 'energy' exactly what does that mean.
And I was told, well, mainly heat and light. But then I was left wondering how heat and light could erase a pacific atol.
'What is energy' is a great title, and I'm sorry to say, though I love your video, you didn't really give me the epiphany my 11 year old self required.

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Pretty interesting that the mass of a proton is mostly due to tiny almost massless particles moving around really fast.

Thank you for mentioning the non-conservation of energy. This asymmetry seems to allow anything to exist at all. Energy is probably the most mysterious thing in the universe. Everything appears to be made of energy (space/time- i.e vacuum energy, etc.) What is the source of this energy? What is the source of dark energy? Is it the same type of energy but with the opposite sign?

Till now we have not been able to explain what is energy. It’s properties and constitution. It’s just remains a hypothetical term. Energy is an inherent force present within the subatomic particles, the forces are magnetic due to their electrical properties. I am an electrical engineer with a spiritual insight

It must be a fascinating place.. Fermilab. Love to visit Fermilab and have an audience of Dr. Lincoln once the pandemic dies down

Best science videos I have ever seen and heard.

1. First "kinetic energy", as the linear momentum of a particulate mass-object that is in motion relative to another (e.g. 'observer') mass-object, as imparted to it by an initial 'pulse' of accelerating force; and the "potential energy" we say a mass-object has that is being held aloft in a (say) gravitational field, are in fact the same thing - the "held aloft" object being, in fact, subjected to a sustained (or you might say, not yet completed pulse of) accelerating force point-radially with respect to the center of mass of the system under consideration.
2. Second, all "motion" is - ultimately - point-radial, originating from "The Big Bang", and still proceeding from it we must assume - no matter which 'direction' a given particulate mass-object is "pushed" by one of its fellows.
What distinguishes a bounded region (such as a "proton") of confined motion (such as that of its "quarks") from the "empty space" (defined by the propagation of EMR photons through it at "the speed of light") surrounding such a region, is precisely that property it exhibits that we call "mass", and which is more accurately described (I propose) as the point-radial (and 'still spinning') fluid vortexual acceleration-flow (complete with 'length contraction' and 'time dilation') imparted to the spacetime contained in that region by some initial point-radially 'explosive' event like "The Big Bang" or a stellar supernova.
3. "Spacetime", the 'stuff' we perceive as being "curved" by the presence of a gravitating mass, is an otherwise scale-uniform superfluid medium (SUM) whose self-relative motion -- a.k.a. "acceleration" -- is what endows it with structure (geometric and otherwise).

I had never heard that bit about redshifted light having lost energy before. It would be wonderful to get some more insight onto the implications that loss of energy has.

Excellent presentation as usual!! Thanks to Dr. Lincoln.

Hundreds of comments after a few hours makes a quite a statement about the content of Dr. Lincolns videos. I gain great insight and then somehow end up with even greater questions. I am trying to comprehend the photon. Does light experience time or space or is it a point particle that that is emitted, transmitted, and absorbed in no time at all. Since particles with mass cannot reach the speed of light, they all observe light travelling at 300,000 km/s due to the electromagnetic fields and\or the characteristics of spacetime. Is the composition of a photon nothing more than a disturbance in the electromagnetic field that can only be propagated at the highest speed permitted by spacetime? Is the energy contained in what objects with mass perceive as a wave which varies in length and frequency based on the level of the disturbance? I enjoyed reading everyone’s comments and would appreciate any thoughts.