Understanding DDWFTTW: Exploring Its Principles and Addressing Common Questions

  • Thread starter Opus_723
  • Start date
In summary, the propeller can apply more force at faster-than-wind speeds because it does not travel as far through the air. This allows the cart to extract more power from the wind.
  • #71
kmarinas86 said:
Only forces parallel or anti-parallel to the motion in question will allow for the kinetic energy of the boat to change.
Yes, and the "accelerating sail force" is parallel to the boat velocity. It will accelerate the boat until the hull drag matches it. Here all the vectors for constant velocity (net force = zero):

attachment.php?attachmentid=42394&stc=1&d=1325545997.png
 

Attachments

  • wiki_all_forces.png
    wiki_all_forces.png
    17.7 KB · Views: 650
Physics news on Phys.org
  • #72
A.T. said:
Yes, and the "accelerating sail force" is parallel to the boat velocity. It will accelerate the boat until the hull drag matches it. Here all the vectors for constant velocity (net force = zero):

attachment.php?attachmentid=42394&stc=1&d=1325545997.png

There is probably more to this system than meets the eye.

The sail drag and lift can be further broken down into components either parallel, anti-parallel, or perpendicular to the sailboat velocity. The part of the sail lift that is parallel doesn't quite make sense though (at first), but I think there might be an account for the energy involved in doing that. I just don't agree that it comes from the wind though.

I will now concede that in this there is a source of energy that would make for the illusion that the apparent wind can accelerate a sail craft in the opposite direction that it is blowing, so such likely has deeper origins in the energy in motion of the atoms and molecules of the craft itself. If this is indeed what is going at a deeper level, then I take back some of the things which I have said. It seems to me that if the matter's energetic motions were somehow deflected internally as a result of external pressure, then that deflection would be sufficient to explain the observational fact (which I have until now have downplayed) that indeed, as stated by A.T., that sailboats can "achieve a downwind VMG greater than true wind, steady state, on constant course, in constant true wind". If so, then some of this phenomenon could be related even to the General Relativistic corrections to Special Relativity (which drop the assumption of "inertial motion only"), as it appears that the fundamental microscopic non-inertial, vibratory/rotational motions involved must some how have changed course to some small degree (even though this is a non-relativistic scenario) as a result of the force interactions involved.

Indeed, General Relativity would predict that the sailboat would undergo an additional "gravitational time dilation" due to the non-inertial motion induced by the deflection of both the apparent wind and the sail, which perhaps could be explain sometime in the future as increasing the effective internal wavelengths that result from "spreading" paths of highly-curvatured motions inside the mass of the sailboat over longer traces of distances with respect to the grid of "spacetime", consequently leading to a decreases in corresponding frequencies and thus decreasing the overall rate of time at the sailboat relative to an external observer.
 
Last edited:
  • #73
kmarinas86 said:
If so, then some of this phenomenon could be related even to General Relativity, as it appears that the fundamental microscopic non-inertial, vibratory/rotational motions involved must some how have changed course to some small degree (in this non-relativistic example) as a result of the force interactions involved.

Nothing fancy -- simple straightforward fluid mechanics involved and it's not even anything new, having been done for hundreds (thousands?) of years. A simple flip of the environment (viewed from the perspective of a fish for example) easily shows that the keel of the very first boat to ever tack its way upwind was achieving a downfluid VMG faster than the fluid, absolutely steady state.

JB
 
  • #74
kmarinas86 said:
I will now concede that in this there is a source of energy that would make for the illusion that the apparent wind can accelerate a sail craft in the opposite direction that it is blowing
It is not "an illusion". It is a well verified empirical fact and in full agreement with Newtonian physics. The "source of energy" is the velocity difference between the air & surface which is always being reduced.
kmarinas86 said:
...matter's energetic motions were somehow deflected internally ... some of this phenomenon could be related even to General Relativity...fundamental microscopic non-inertial, vibratory/rotational motions involved ...
LOL. It's just simple mechanics as the vectors diagrams show.
 
  • #75
ThinAirDesign said:
Nothing fancy -- simple straightforward fluid mechanics involved and it's not even anything new, having been done for hundreds (thousands?) of years. A simple flip of the environment (viewed from the perspective of a fish for example) easily shows that the keel of the very first boat to ever tack its way upwind was achieving a downfluid VMG faster than the fluid, absolutely steady state.

JB

A.T. said:
It is not "an illusion". It is a well verified empirical fact and in full agreement with Newtonian physics. The "source of energy" is the velocity difference between the air & surface which is always being reduced.

LOL. It's just simple mechanics as the vectors diagrams show.

Without positing pre-existing "hidden" momentum inside the mass of the apparent wind and/or the craft itself, I cannot at all see how something that blows at you can pull you forward. It seems to make more sense to imagine that the apparent wind is simply allowing this "hidden" momentum (which we know exists in the form of the [itex]\vec{p}[/itex] in the equation [itex](m_{whole}c^2)^2[/itex][itex]=E_{whole}^2=(m_{parts}c^2)^2+\left\|\sum \vec{p}\ c \right\|^2[/itex] to appear visible to a human observer, than it is to believe that apparent wind would be gaining energy by doing work on the sail. After all, if the apparent wind is moving to the left and pushes the sail to the right, this would mean that the apparent wind would have to accelerate both itself and the sail, which would violate the conservation of energy, if it were not for this hidden momentum. It is no coincidence to me that so many think incorrectly that the DDTFTTW craft is impossible. They see the apparent wind as a source of energy, and they cannot imagine how it would increase speed relative to the craft by being thrusted by the propeller tailwards while at the same time having that power of the propeller being explained by the same incoming headwind. The reason why this is so prevalent is that there is something wrong with apparent wind being able to do that with the cart, if you don't accept that there is a hidden source of energy! Yes, the forces can explain conservation of momentum, but from the inertial frame of the craft at time [itex]t[/itex], it is very clear that without a hidden source of energy, we cannot explain why the head wind and the craft with increase respect to the frame once [itex]t[/itex] has passed. In this case, it is not hidden because of deception, but rather, it is hidden because the energy is that of atoms and molecules. So the skeptics of DDTFTTW are not entirely wrong in their skepticism. There must be a hidden energy source (It's nature's energy!). :)
 
Last edited:
  • #76
kmarinas86 said:
I cannot at all see how something that blows at you can pull you forward.
Sailors use this of ages.
kmarinas86 said:
...hidden momentum...
Very creative, but there is no need for such obfuscatory nonsense. All the momentum is clearly visible all the time and is being conserved.
 
  • #77
kmarinas86 said:
I cannot at all see how something that blows at you can pull you forward.

Before I respond I really must clarify something.

Sailboats sail upwind all the time. They can leave a point downwind and readily arrive at a point directly upwind of where they were by simply sailing towards a point situation to the right (or left) of the upwind goal, and then once halfway there, they turn and sail directly towards that point.

A: If taken literally and without context, your above quoted statement would make it seem as though you don't see how a boat can sail upwind such as the above. I'm pretty sure that's not what you mean but I do want to ask the question.

B: If you believe boats can make upwind progress by sailing at an angle to the wind, but are having difficulty believing that *anything* wind powered can make steady state progress directly into the wind using basic Newtonian physics then I need to know that.

A or B or other?

Thanks

JB
 
  • #78
A.T. said:
Sailors use this of ages.

Very creative, but there is no need for such obfuscatory nonsense. All the momentum is clearly visible all the time and is being conserved.

The net momentum is indeed conserved.

2 + (-2) = (3) + (-3)... etc.

That makes it look like there is no mystery.

What does not make sense to many still-skeptical skeptics is how would the Blackbird DDTWFTTW sand yacht conserve energy. Neither you, nor them, seem to have the explanation.

Note that:

(2)^2 + (-2)^2 is not (3)^2 + (-3)^2... etc.

Would you mind explaining where the energy comes from to allow the wind to do work on the DDWFTTW vehicle (in the time between [itex]t[/itex] and [itex]t+\epsilon[/itex]) at the same time the DDWFTTW vehicle accelerates, with respect to the initial inertial frame of the vehicle at time [itex]t[/itex]? The work is done in opposite directions, conserving momentum even macroscopically, but not the kinetic energies of both (both increase as far as the initial inertial frame is concerned). My "very creative" resolution addresses this problem by bringing up the point about the true and factual existence of the below-macroscopic energy of atoms and molecules as being the entity that accounts for this apparent gap.

My explanation is not that of a hidden net momentum, but a hidden set of vector momenta which sums to zero in the frame being evaluated (i.e. the momentum whose energy is identical to the rest mass of a body, as evaluated from the system frame in question, times the speed of light squared). I have a hunch that somehow this is either the static P-V energy that was already present in the air mass prior to vehicle operation, and/or the vibrational and rotational energy of the vehicle's particle makeup. Probably both.
 
Last edited:
  • #79
ThinAirDesign said:
Before I respond I really must clarify something.

Sailboats sail upwind all the time. They can leave a point downwind and readily arrive at a point directly upwind of where they were by simply sailing towards a point situation to the right (or left) of the upwind goal, and then once halfway there, they turn and sail directly towards that point.

A: If taken literally and without context, your above quoted statement would make it seem as though you don't see how a boat can sail upwind such as the above. I'm pretty sure that's not what you mean but I do want to ask the question.

B: If you believe boats can make upwind progress by sailing at an angle to the wind, but are having difficulty believing that *anything* wind powered can make steady state progress directly into the wind using basic Newtonian physics then I need to know that.

A or B or other?

Thanks

JB

Neither. Potential energy must be extracted from the system. Either the static P-V of the wind and/or the energy from the particle make-up of vehicle (and/or even that of the ground, if need be). A correct explanation cannot be found by trying to conserve "kinetic energy+heat" while ignoring potential energy.

The quote (taken out from a sentence after a comma) is taken too far out of context. It doesn't even relate to what I am saying.
 
  • #80
kmarinas86 said:
Neither.

<snip>

The quote (taken out from a sentence after a comma) is taken too far out of context. It doesn't even relate to what I am saying.

Ok, got it. I was pretty sure from your previous posts that "A" wasn't what you meant, but didn't want to move forward without confirmation.

Thanks.

It appears that what you are saying the examples I have in that post can and do happen, you just don't believe they can be explained through simple Newtonian physics.

Would that be a fair representation of your position?

JB
 
  • #81
kmarinas86 said:
Potential energy must be extracted from the system.
For a fluid or gas, potential energy is used to describe the gravitational potential energy of a gas or fluid. For a wind driven vehicle, the energy extracted from the air affected by the wind driven vehicle corresponds to the reduction in kinetic energy (wrt ground) of the affected air. (Pressure effects are short term and only exist in the immediate vincinity of the propeller.)
 
Last edited:
  • #82
ThinAirDesign said:
Ok, got it. I was pretty sure from your previous posts that "A" wasn't what you meant, but didn't want to move forward without confirmation.

Thanks.

It appears that what you are saying the examples I have in that post can and do happen, you just don't believe they can be explained through simple Newtonian physics.

Would that be a fair representation of your position?

JB

I guess that depends on what you call simple, what you call Newtonian, and what you mean by explain. You can explain things using forces without highlighting the apparent non-conservation of "kinetic energy+heat". That is simple (to me), but ignoring where this kinetic energy comes from doesn't do it for me, so I would disagree that it is somehow an adequate explanation. (If a claimed-to-be explanation is inadequate, does it really explain what needs to be explained?) Potential energy latent inside matter isn't exactly something that I would call part of "Newtonian" physics. It's not included in most of the (simple enough to be convincing to most) analyses that have been offered to explain the Blackbird. Certainly it can be explained using classical physics.

The lack of significant mention of potential energy when discussing how tacking can allow sails to move ahead of the wind, in addition to the absolute absence of this point in many of the videos that I have seen that try to explain DDTWFTTW, has (I bet) contributed much confusion for people (including skeptics and naysayers) who wonder where the energy comes from and who, like myself, have for a time not been able to see how tacking would be of any benefit to it.
 
Last edited:
  • #83
kmarinas86 said:
The lack of significant mention of potential energy when discussing how tacking can allow sails to move ahead of the wind, in addition to the absolute absence of this point in many of the videos that I have seen that try to explain DDTWFTTW, has (I bet) contributed much confusion for people (including skeptics and naysayers) who wonder where the energy comes from and who, like myself, have for a time not been able to see how tacking would be of any benefit to it.


If by "potential energy" you mean something other than the mass of one fluid moving relative to another (or surface) and the kinetic energy contained thus, then the reason it isn't used in an explanation or video is that it would be flat wrong. There is NO other energy involved in accelerating the craft.

If by "potential energy" you mean the mass of one fluid moving relative to another (or surface) and the kinetic energy contained thus - meaning the power of the wind, I can't imagine how you have missed such explanations.

JB
 
  • #84
kmarinas86 said:
where this kinetic energy comes from
You could consider the source of energy for the true wind to be the heat from the sun.

kmarinas86 said:
Potential energy latent inside matter isn't exactly something that I would call part of "Newtonian" physics.
I don't recall any mention of potential energy in the descriptions of how wind driven vehicles operates (sail boats, DDWFTTW vehicles, DUW vehicles, ... ). Extracting potential energy within matter involves a chemical or nuclear reaction, which doesn't occur with the wind powered vehicles being discussed here.

kmarinas86 said:
The lack of significant mention of potential energy when discussing how tacking can allow sails to move ahead of the wind. ... where the energy comes from
I'm not sure what you mean by potential energy. Wind driven vehicles extract kinetic energy from the wind (using a ground or water based frame of reference).

kmarinas86 said:
how tacking would be of any benefit to it.
Tacking isn't required for a DDWFTTW vehicle. A DDWFTTW vehicle could connect the wheels to a treadmill geared so the upper surface of the treadmill moves upwind at some fraction of the vehicles speed, for example 1/2 of the vehicles speed (an advance ratio of .5). The treadmill could pull parachutes along the upper surface and then collapse them (perhaps pull them through a tube) along the lower surface. It wouldn't be as efficient as a propeller, but if the losses could be reduced enough, it would work.

A sail can't generate thrust from an apparent headwind component, so it needs an apparent crosswind component which it diverts to aft of the boat's heading to generate thrust, which is why a sail boat needs to tack in order to achieve vmg downwind greater than true wind.
 
Last edited:
  • #85
rcgldr said:
I'm not sure what you mean by potential energy. Wind driven vehicles extract pressure energy and kinetic energy from the wind (using a ground or water based frame of reference).

Pressure energy to me is a form of potential energy, though I tend to look at it from a "molecular" perspective where electric forces reign supreme over gravitational ones.
 
  • #86
kmarinas86 said:
Pressure energy to me is a form of potential energy, though I tend to look at it from a "molecular" perspective where electric forces reign supreme over gravitational ones.

Even pressure energy doesn't come into the equation. The vehicle simply slows down the air relative to the ground beneath it. That's all. For pressure energy to benefit the cart it would have to leave a volume of air in its wake that has been expanded to greater volume and lower pressure. It doesn't do this.
 
  • #87
spork said:
Even pressure energy doesn't come into the equation.
There's a pressure differential in the immediate vincinity of the propeller, but eventually the affected air's pressure returns to ambient and it's velocity is changed. From a DDWFTTW vehicle's frame of reference, the pressure and flow near the propeller corresponds to the description in this NASA article:

http://www.grc.nasa.gov/WWW/K-12/airplane/propanl.html

From a ground frame of reference, the pressure differential at the propeller results in the affected air from the true wind to be slowed down.
 
Last edited:
  • #88
rcgldr said:
There's a pressure differential in the immediate vincinity of the propeller...

Of course there is. But you said: "Wind driven vehicles extract pressure energy and kinetic energy from the wind"

And this isn't the case. Sure they create a lower pressure in front of the disk and a high pressure behind the disk, but ultimately, they don't take any "pressure energy" from the wind. That would be equivalent to saying that an airplane's exploits the "pressure energy" of the air to stay aloft. The fact that it has a local effect (both positive and negative) on air pressure does not imply that it extracts pressure energy from the wind.
 
  • #89
spork said:
But you said: "Wind driven vehicles extract pressure energy and kinetic energy from the wind"
Yeah I worded that badly and corrected my previous posts. The pressure effects are short term and only exist in the immediate vicinity of the propeller.
 
Last edited:
  • #90
rcgldr said:
Yeah I worded that badly. The pressure effects are short term and only exists in the immediate vicinity of the propeller.

I figured it was a simple mis-statement. That's one of the reasons I didn't mention it when you posted it, but only when kmarinas86 talked about it as potential energy. I got the distinct idea he saw it as something it's not.
 
  • #91
So let's get this straight.

If we have wind blowing at 20 mph relative to ground and the cart moving at 30 mph and still accelerating, at the 30 mph frame, the wind would appear to move at -10 mph and the cart (not) move at 0 mph.

But if we wait just a split second, the cart will start moving at greater than 0 mph in the 30 mph frame and the wind will start moving at less than -10 mph.

So in the 30 mph frame, both the wind and the cart will gain relative velocity (relative to the 30 mph frame that is). Obviously the mass will remain the same for each, so they both gain kinetic energy. Is there any reason to believe that they don't both gain kinetic energy in the 30 mph frame? It sure looks like that to me!

Why? Why would this be possible if there is no potential energy involved?

As far as wheel friction is concerned, the ground would be slightly nudged by the cart rearwards as well, although the change in speed is almost non-existent (the ground -the Earth- is very massive) so its basically just pressure wave being sent to the ground that you can't see. So, for being thrusted by the cart in the same direction as the wind is thrusted by the cart, the ground's reaction to the cart doubles my suspicion for the 30 mph frame.

Due to the wheels, there is no net force of the cart crosswise here, so there is no expectation that there should be any net cross-wise force on the "wind+ground". So as far as net forces are concerned, they exist only along the line that the DDTFTTW cart travels. Like was shown in a previous diagram, the lateral hull force and the lateral sail force cancel each other out! Also note the that transition from compression to rarefaction in a pressure wave is the conversion of potential energy into kinetic energy, and the transition from rarefaction to compression is the conversion of kinetic energy into potential energy. Buffeting anyone?
 
Last edited:
  • #92
kmarinas86 said:
wind blowing at 20 mph relative to ground and the cart moving at 30 mph and still accelerating, at the 30 mph frame, the wind would appear to move at -10 mph and the cart (not) move at 0 mph.

But if we wait just a split second, the cart will start moving at greater than 0 mph in the 30 mph frame and the wind will start moving at less than -10 mph.

So in the 30 mph frame, both the wind and the cart will gain relative velocity.

And by the way, as far as wheel friction is concerned, the ground would be slightly nudged by the cart rearwards as well, although the change in speed is almost non-existent (the ground -the Earth- is very massive) so its basically just pressure wave being sent to the ground that you can't see.
In the 30 mph frame, the surface of the Earth is moving at -30 mph, and the Earth's's KE is huge. The forward force at the wheels decreases the magnitude of the Earth's velocity (wrt 30 mph frame) by a tiny amount, but the decrease in KE of the Earth will be enough to account for the overall increase in KE of the affected air and the cart, plus the losses that end up as heat.
 
Last edited:
  • #93
rcgldr said:
In the 30 mph frame, the surface of the Earth is moving at -30 mph, and the Earth's's KE is huge. The forward force at the wheels decreases the magnitude of the Earth's velocity (wrt 30 mph frame) by a tiny amount, but the decrease in KE of the Earth will be enough to account for the overall increase in KE of the affected air and the cart, plus the losses that end up as heat.

That's wrong. The cart can work as long as there is tailwind. So this can cause the Earth to increase or decrease rotational speed (or in a special case, not at all) depending on the direction. What happens, say, if the cart is going westward, accelerating (not decelerating) the Earth's rotation. Does the cart cease to function? Obviously not!

rcgldr said:
In the 30 mph frame, the true wind remains constant at -10 mph regardless of the cart's speed.

The true wind is a separate "parcel" from the affected wind. There is absolutely no way that the affected wind could have the same speed relative to the 30 mph frame after interacting with the blades of the prop.

rcgldr said:
The prop thrust speed (wrt 30 mph frame) will decrease as the cart speed increases, since the prop thrust speed is a fraction of the cart's ground speed (about 4/5 in the case of the blackbird).

The thrust consists of a series of air parcels that change speed. While the thrust speed decreases as cart accelerates, this thrust speed is of different air parcels all of which are already moving in the opposite direction of the cart in the 30 mph frame. To have them being thrown the other way (implying a change of speed as being the basis for thrust) can only accelerate the cart forwards, and it can only make the thrusted air even more negative in their speed relative to the 30 mph frame!

As far as changes in kinetic energy of the wind is concerned, knowing that it does (indeed) provide some input to the cart, the kinetic energy of the wind, which was already moving at -10 mph from the cart frame speeds up in the 30 mph frame and slows down in the ground frame. Note that going from -10 mph, to say, -11 mph in the 30 mph frame is actually an increase of kinetic energy as seen in that frame by a factor of (11/10)^2 given constant mass. The reason for that is that energy is not a vector!
 
Last edited:
  • #94
rcgldr said:
In the 30 mph frame, the surface of the Earth is moving at -30 mph, and the Earth's's KE is huge. The forward force at the wheels decreases the magnitude of the Earth's velocity (wrt 30 mph frame) by a tiny amount, but the decrease in KE of the Earth will be enough to account for the overall increase in KE of the affected air and the cart, plus the losses that end up as heat.

kmarinas86 said:
So this can cause the Earth to increase or decrease rotational speed (or in a special case, not at all) depending on the direction.
The direction doesn't matter because you defined the frame of reference to be in the same direction as the cart wrt Earth's surface, at +30 mph wrt Earth's surface.

kmarinas86 said:
The true wind is a separate "parcel" from the affected wind. There is absolutely no way that the affected wind could have the same speed relative to the 30 mph frame after interacting with the blades of the prop.
Assuming the advance ratio is 4/5 then from the cart's frame of reference, a ground speed of -30 mph translates into prop thrust speed of -24 mph, and a ground speed of -35 mph translates into prop thrust speed of -28 mph.

In the 30 mph frame of reference, at a cart speed of +0 mph, prop thrust speed is -24 mph, and the affected air is accelerated from -10 mph to -24 mph, increasing its KE. At a cart speed of +5 mph, prop thrust speed is (5 - 28 =) -23 mph, and the affected air is accelerated from -10 mph to -23 mph, increasing its KE.

In the 30 mph frame of reference, KE is extracted from the Earth and added to the air and cart.
 
Last edited:
  • #95
rcgldr said:
In the 30 mph frame, the surface of the Earth is moving at -30 mph, and the Earth's's KE is huge.
kmarinas86 said:
... Earth's rotation...
It has nothing to do with the Earth's rotation. Even a non rotating Earth would have KE in a reference frame, which moves relative to the Earth at 30mph. KE is frame dependent. In the frame of the cart the wheels are doing negative work on the ground. So they are harvesting energy from it in that frame.
 
  • #96
A.T. said:
It has nothing to do with the Earth's rotation. Even a non rotating Earth would have KE in a reference frame, which moves relative to the Earth at 30mph. KE is frame dependent. In the frame of the cart the wheels are doing negative work on the ground. So they are harvesting energy from it in that frame.

rcgldr said:
In the 30 mph frame of reference, KE is extracted from the Earth and added to the air and cart.

A.T. is right as far as the fact that it has nothing do to with the speed of Earth's rotation. We are talking about the norm of the derivative of Earth's speed (not really the "rate of rotation", which is angular velocity). It's about the derivative because are now talking about forces (which cause changes in speed), and it's about the norm because the kinetic energy is based on the square of the speed, which removes the sign!

And we are talking primarily about one frame at the moment, not so much the others.

And to both of you, why is it so hard to believe that potential energy is involved? It is clearly required from the 30 mph frame. Not the cart, not the wind, and not the Earth -none of them- would lose KE in this frame, they all gain it, just as you would expect for two negative charges in proximity to one another. Negative velocities in this frame become larger negative velocities (those of the wind (-10 mph) and the Earth (-30 mph)), and positive velocities become larger positive velocities (those of the propeller and the cart (+0.0000... mph onward)).

And as we should already know, "positive" and "negative" are arbitrary here, being assigned to forward and backward relative to the vehicle's direction. They have nothing to do with some non-physical explanation that equates a growing negative velocity (i.e. from -10 mph to -11 mph) as somehow corresponding to a loss of kinetic energy supposedly extracted by the cart. Kinetic energy is not a vector! Going from -10 mph to -11 mph is not an increase in kinetic energy, it corresponds to it!
 
Last edited:
  • #97
kmarinas86 said:
Why is it so hard to believe that potential energy is involved? It is clearly required from the 30 mph frame. Not the cart, not the wind, and not the Earth -none of them- would lose KE in this frame,
The Earth is loosing KE in an inertial frame that initially was moving 30mph wrt to the Earth. In that frame the cart exerts a force on the ground opposite to the velocity of the ground.

If the huge mass difference confuses you, consider a DDWFTTW boat with a turbine in the water, instead of the wheels. It affects only some of the water locally, just like the propeller does with air. In the rest frame of the airmass (outside of the prop influence) you see some of the air initially at rest, being accelerated back by the prop (gaining KE), and some of the water initially moving back at -30mph being pushed forward by the turbine and slowed down (loosing KE).
 
  • #98
A.T. said:
The Earth is loosing KE in an inertial frame that initially was moving 30mph wrt to the Earth. In that frame the cart exerts a force on the ground opposite to the velocity of the ground.

That's impossible. Kinetic energy is not a vector. Kinetic energy is NOT a vector! The Earth already has a velocity of -30 mph in the 30 mph frame. Are you able to conceive of that? I'm not so sure that you can. For it to that to change to -29 mph requires that the Earth accelerates the same direction as the cart, so by the law of non-contradiction it does not do so. (-30)^2 is 900 and is greater than (-20)^2 (=400). The Earth has more kinetic energy going -30 mph in the 30 mph frame than it does going at -29 mph. But acceleration of the Earth in this linear case is negative, so the speed must be going from -30 mph to a little bit larger in the negative direction (perhaps, say (-30 - 10^(-20)) mph). So in this 30 mph frame, the kinetic energy of the Earth increases!
 
Last edited:
  • #99
A.T. said:
The Earth is loosing KE in an inertial frame that initially was moving 30mph wrt to the Earth. In that frame the cart exerts a force on the ground opposite to the velocity of the ground.
kmarinas86 said:
requires that the Earth accelerates the same direction as the cart,
That is correct in the inertial frame that initially was moving 30mph wrt the Earth. The acceleration vectors for cart and Earth point in the same direction. But due to different velocities the cart speed increases, while the Earth speed decreases.

Of course the Earth acceleration is negligible but you could run the cart on a floating platform, that will be accelerated in a measurable way. Or you can consider the DDWFTTW boat, where the underwater turbine drag clearly accelerates water forwards, thus slowing it down in the boats frame.
 
  • #100
kmarinas86 said:
Kinetic energy is not a vector. Kinetic energy is NOT a vector! ... Are you able to conceive of that? I'm not so sure that you can.

Chill out Francis. Everyone but you seems to understand this just fine.
 
  • #101
A.T. said:
That is correct in the inertial frame that initially was moving 30mph wrt the Earth. The acceleration vectors for cart and Earth point in the same direction. But due to different velocities the cart speed increases, while the Earth speed decreases.

Going from -30 mph to, say, -30 - (10)^(-20) mph, is a speed increase!

Going from 10^(-20) mph to 0 mph is a speed decrease!

How would you express speed of a laterally moving body? Not by using positive and negative of course! The + and - directions are not special. They are not responsible for causing "opposite" values for speed, nor for kinetic energy. They do represent opposite tendencies for momentum and velocity for a one-dimensional case. Momentum and velocities are vectors! Speed and kinetic energy are scalars!

A.T. said:
Of course the Earth acceleration is negligible but you could run the cart on a floating platform, that will be accelerated in a measurable way. Or you can consider the DDWFTTW boat, where the underwater turbine drag clearly accelerates water forwards, thus slowing it down in the boats frame.

Yes, and in the 30 mph frame the acceleration of the Earth is negative. The DDWFTTW vehicle can work just fine without any DIRECT friction coupling between the wind and the ground. The coupling between friction and the ground is insignificant in contrast to that of between the wind and the cart as well as that of between the cart and the ground, so the wind and the ground are accelerated in the same direction (negative)! A negative acceleration causes a negative velocity to become a greater negative, and a positive velocity becomes lesser positive (either that, or becomes negative). If the cart is moving faster than 30 mph relative to ground, and the Earth is the ground and thus less than 30 mph relative to the ground, then it stands to the reason that the velocity of the Earth relative to the 30 mph frame is negative, as contrasted with the cart's velocity that is positive relative to the same 30 mph frame!
 
Last edited:
  • #102
In the 30 mph frame of reference, the tires on the cart exert a force on the Earth in the positive direction, changing it's velocity from -30 mph to -29.99999999999... mph, so KE of the Earth is decreased (extracted).
 
  • #103
rcgldr said:
In the 30 mph frame of reference, the tires on the cart exert a force on the Earth in the positive direction, changing it's velocity from -30 mph to -29.99999999999... mph, so KE of the Earth is decreased (extracted).

I already refuted this:

kmarinas86 said:
The DDWFTTW vehicle can work just fine without any DIRECT friction coupling between the wind and the ground. The coupling between friction and the ground is insignificant in contrast to that of between the wind and the cart as well as that of between the cart and the ground, so the wind and the ground are accelerated in the same direction (negative)!
 
  • #104
kmarinas86 said:
I already refuted this:

Yes, but you were completely wrong.
 
  • #105
kmarinas86 said:
The DDWFTTW vehicle can work just fine without any DIRECT friction coupling between the wind and the ground.


Could you elaborate on what you mean by DIRECT here? It seems to me to be clearly wrong.
 
<h2>1. What is DDWFTTW and what does it stand for?</h2><p>DDWFTTW stands for "Don't Do Work For The Work". It is a concept that challenges traditional ideas about work and productivity, suggesting that by not forcing ourselves to work, we can actually be more productive and efficient.</p><h2>2. How does DDWFTTW work?</h2><p>The principle behind DDWFTTW is that by allowing ourselves to take breaks and not forcing ourselves to work, we can tap into our natural rhythms and energy levels. This can lead to increased focus, creativity, and overall productivity.</p><h2>3. Is DDWFTTW supported by scientific research?</h2><p>While there is not a lot of research specifically on DDWFTTW, there is evidence to support the idea that taking breaks and allowing for rest and relaxation can improve productivity and overall well-being. Studies have shown that breaks can improve focus, creativity, and problem-solving abilities.</p><h2>4. Can DDWFTTW be applied to all types of work?</h2><p>DDWFTTW can be applied to most types of work, but it may not be suitable for all individuals or industries. Some jobs may have strict deadlines or require constant attention, making it difficult to implement this approach. It is important to consider individual needs and job requirements when applying DDWFTTW principles.</p><h2>5. Are there any potential downsides to using DDWFTTW?</h2><p>While DDWFTTW can be effective for some individuals, it may not work for everyone. Some people may feel guilty or unproductive when taking breaks, and it may not be feasible for certain jobs or industries. Additionally, it is important to find a balance and not use DDWFTTW as an excuse to avoid work altogether.</p>

1. What is DDWFTTW and what does it stand for?

DDWFTTW stands for "Don't Do Work For The Work". It is a concept that challenges traditional ideas about work and productivity, suggesting that by not forcing ourselves to work, we can actually be more productive and efficient.

2. How does DDWFTTW work?

The principle behind DDWFTTW is that by allowing ourselves to take breaks and not forcing ourselves to work, we can tap into our natural rhythms and energy levels. This can lead to increased focus, creativity, and overall productivity.

3. Is DDWFTTW supported by scientific research?

While there is not a lot of research specifically on DDWFTTW, there is evidence to support the idea that taking breaks and allowing for rest and relaxation can improve productivity and overall well-being. Studies have shown that breaks can improve focus, creativity, and problem-solving abilities.

4. Can DDWFTTW be applied to all types of work?

DDWFTTW can be applied to most types of work, but it may not be suitable for all individuals or industries. Some jobs may have strict deadlines or require constant attention, making it difficult to implement this approach. It is important to consider individual needs and job requirements when applying DDWFTTW principles.

5. Are there any potential downsides to using DDWFTTW?

While DDWFTTW can be effective for some individuals, it may not work for everyone. Some people may feel guilty or unproductive when taking breaks, and it may not be feasible for certain jobs or industries. Additionally, it is important to find a balance and not use DDWFTTW as an excuse to avoid work altogether.

Similar threads

Replies
69
Views
10K
Replies
15
Views
2K
  • Aerospace Engineering
Replies
3
Views
1K
  • Classical Physics
Replies
5
Views
923
  • Classical Physics
3
Replies
101
Views
12K
  • Other Physics Topics
Replies
12
Views
6K
Replies
27
Views
8K
  • Other Physics Topics
2
Replies
47
Views
11K
  • Classical Physics
3
Replies
95
Views
4K
  • General Engineering
Replies
7
Views
2K
Back
Top