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Single mother in need of explanation
Thank you in advance for your time. I found a neat project to do with
my 14 year old son, but would like to know the science behind it so it will be educational. Here is the video link. http://www.metacafe.com/watch/470767...ct_experiment/ It is a fire cracker experiment, and I know he will love it, but I am clueless as to how this makes my car run. |
Single mother in need of explanation
I assume the can is open on one end like a soup can, not a coke can. I
think the water is there to provide an airtight, frictionless seal for more effect. Keeping the firercracker dry is tricky. This looks like a good use for the hundreds of firecrackers I have left over! What he is simulating is the explosion that happens in one of your cars engine cylinders. A car engine operates on a series of small controlled explosions. In your car, the explosive force drives a piston down, pushing a connecting rod which in turn rotates a crankshaft. A car engine has 4 to 8 cylinders which fire sequentially and smoothly. The links below illustrate this with a single cylinder like a lawnmower engine. These are "internal combustion engines". My sister did a similar science project years ago with a coffee can fitted with a spark plug and filled with a very small amount of gasoline or ether. A plastic lid was placed on top and an ignition coil made a spark which blew the plastic lid off. Not as dramatic as a fire cracker. http://www.keveney.com/otto.html http://en.wikipedia.org/wiki/Four-stroke_cycle Dumb_Blonde wrote: Thank you in advance for your time. I found a neat project to do with my 14 year old son, but would like to know the science behind it so it will be educational. Here is the video link. http://www.metacafe.com/watch/470767...ct_experiment/ It is a fire cracker experiment, and I know he will love it, but I am clueless as to how this makes my car run. -- Joe Leikhim K4SAT "The RFI-EMI-GUY"© "Treason doth never prosper: what's the reason? For if it prosper, none dare call it treason." "Follow The Money" ;-P |
Single mother in need of explanation
"**THE-RFI-EMI-GUY**" wrote in message
... I assume the can is open on one end like a soup can, not a coke can. I think the water is there to provide an airtight, frictionless seal for more effect. Keeping the firercracker dry is tricky. This looks like a good use for the hundreds of firecrackers I have left over! What he is simulating is the explosion that happens in one of your cars engine cylinders. A car engine operates on a series of small controlled explosions. In your car, the explosive force drives a piston down, pushing a connecting rod which in turn rotates a crankshaft. A car engine has 4 to 8 cylinders which fire sequentially and smoothly. The links below illustrate this with a single cylinder like a lawnmower engine. These are "internal combustion engines". My sister did a similar science project years ago with a coffee can fitted with a spark plug and filled with a very small amount of gasoline or ether. A plastic lid was placed on top and an ignition coil made a spark which blew the plastic lid off. Not as dramatic as a fire cracker. http://www.keveney.com/otto.html http://en.wikipedia.org/wiki/Four-stroke_cycle Dumb_Blonde wrote: Thank you in advance for your time. I found a neat project to do with my 14 year old son, but would like to know the science behind it so it will be educational. Here is the video link. http://www.metacafe.com/watch/470767...ct_experiment/ It is a fire cracker experiment, and I know he will love it, but I am clueless as to how this makes my car run. -- Joe Leikhim K4SAT "The RFI-EMI-GUY"© Their is no explosion in a properly operating internal combustion engine. The fuel merely heats the air. The expansion of the air pushes the piston. An explosion called detonation or knock can put a hole in the piston. Some engines require higher octane fuel to keep knock from occurring. |
Single mother in need of explanation
Its a matter of semantics. A arguably a hydrogen bomb simply heats up
surrounding air (and matter). Captain Midnight wrote: "**THE-RFI-EMI-GUY**" wrote in message ... I assume the can is open on one end like a soup can, not a coke can. I think the water is there to provide an airtight, frictionless seal for more effect. Keeping the firercracker dry is tricky. This looks like a good use for the hundreds of firecrackers I have left over! What he is simulating is the explosion that happens in one of your cars engine cylinders. A car engine operates on a series of small controlled explosions. In your car, the explosive force drives a piston down, pushing a connecting rod which in turn rotates a crankshaft. A car engine has 4 to 8 cylinders which fire sequentially and smoothly. The links below illustrate this with a single cylinder like a lawnmower engine. These are "internal combustion engines". My sister did a similar science project years ago with a coffee can fitted with a spark plug and filled with a very small amount of gasoline or ether. A plastic lid was placed on top and an ignition coil made a spark which blew the plastic lid off. Not as dramatic as a fire cracker. http://www.keveney.com/otto.html http://en.wikipedia.org/wiki/Four-stroke_cycle Dumb_Blonde wrote: Thank you in advance for your time. I found a neat project to do with my 14 year old son, but would like to know the science behind it so it will be educational. Here is the video link. http://www.metacafe.com/watch/470767...ct_experiment/ It is a fire cracker experiment, and I know he will love it, but I am clueless as to how this makes my car run. -- Joe Leikhim K4SAT "The RFI-EMI-GUY"© Their is no explosion in a properly operating internal combustion engine. The fuel merely heats the air. The expansion of the air pushes the piston. An explosion called detonation or knock can put a hole in the piston. Some engines require higher octane fuel to keep knock from occurring. -- Joe Leikhim K4SAT "The RFI-EMI-GUY"© "Treason doth never prosper: what's the reason? For if it prosper, none dare call it treason." "Follow The Money" ;-P |
Single mother in need of explanation
"Captain Midnight" wrote in message ... "**THE-RFI-EMI-GUY**" wrote in message ... I assume the can is open on one end like a soup can, not a coke can. I think the water is there to provide an airtight, frictionless seal for more effect. Keeping the firercracker dry is tricky. This looks like a good use for the hundreds of firecrackers I have left over! What he is simulating is the explosion that happens in one of your cars engine cylinders. A car engine operates on a series of small controlled explosions. In your car, the explosive force drives a piston down, pushing a connecting rod which in turn rotates a crankshaft. A car engine has 4 to 8 cylinders which fire sequentially and smoothly. The links below illustrate this with a single cylinder like a lawnmower engine. These are "internal combustion engines". My sister did a similar science project years ago with a coffee can fitted with a spark plug and filled with a very small amount of gasoline or ether. A plastic lid was placed on top and an ignition coil made a spark which blew the plastic lid off. Not as dramatic as a fire cracker. http://www.keveney.com/otto.html http://en.wikipedia.org/wiki/Four-stroke_cycle Dumb_Blonde wrote: Thank you in advance for your time. I found a neat project to do with my 14 year old son, but would like to know the science behind it so it will be educational. Here is the video link. http://www.metacafe.com/watch/470767...ct_experiment/ It is a fire cracker experiment, and I know he will love it, but I am clueless as to how this makes my car run. -- Joe Leikhim K4SAT "The RFI-EMI-GUY"© Their is no explosion in a properly operating internal combustion engine. The fuel merely heats the air. The expansion of the air pushes the piston. An explosion called detonation or knock can put a hole in the piston. Some engines require higher octane fuel to keep knock from occurring. That seems to me to be a misleading description of the principles of an internal combustion engine. The fuel is mixed with the air in a very carefully controlled ratio, highly compressed, and is then set light to, either by a spark in the case of a gasoline engine, or by self ignition from the rapid heating of the mixture during compression, in the case of a diesel. It burns or combusts, and what comes out of the exhaust, after the burning, is not air, but a fully reduced residue of the burning process. The burning of the mixture under such intense pressure, in what is essentially a fully contained space, takes place at such speed, it would usually be considered to be representative of a controlled explosion. Detonation knock is normally as a result of the timing of the ignition source not being ideal for the engine in question. The detonation process should be started just before the piston reaches top dead centre, so that by the time the burning has spread fully from the initiating point - ie the spark plug - through the entire mixture, and is thus at its fiercest, the piston has rolled over past its point of being momentarily stationary, and is just beginning on its way back down the cylinder. The rapidly burning ( exploding ? ) mixture will then deliver maximum thrust to the piston, driving it down the cylinder bore. If the mixture starts to burn too early, it will reach maximum energy output before the piston has reached the top, so will oppose the upward movement of the piston, which is still occuring, leading to the pre-detonation knock. Maybe it is just semantics, and some may disagree, but that has always been my take on how an engine works, ever since I was first rebuilding them as a kid, because I couldn't afford repair shop prices !! Arfa |
Single mother in need of explanation
"Arfa Daily" wrote in message ... "Captain Midnight" wrote in message ... "**THE-RFI-EMI-GUY**" wrote in message ... I assume the can is open on one end like a soup can, not a coke can. I think the water is there to provide an airtight, frictionless seal for more effect. Keeping the firercracker dry is tricky. This looks like a good use for the hundreds of firecrackers I have left over! What he is simulating is the explosion that happens in one of your cars engine cylinders. A car engine operates on a series of small controlled explosions. In your car, the explosive force drives a piston down, pushing a connecting rod which in turn rotates a crankshaft. A car engine has 4 to 8 cylinders which fire sequentially and smoothly. The links below illustrate this with a single cylinder like a lawnmower engine. These are "internal combustion engines". My sister did a similar science project years ago with a coffee can fitted with a spark plug and filled with a very small amount of gasoline or ether. A plastic lid was placed on top and an ignition coil made a spark which blew the plastic lid off. Not as dramatic as a fire cracker. http://www.keveney.com/otto.html http://en.wikipedia.org/wiki/Four-stroke_cycle Dumb_Blonde wrote: Thank you in advance for your time. I found a neat project to do with my 14 year old son, but would like to know the science behind it so it will be educational. Here is the video link. http://www.metacafe.com/watch/470767...ct_experiment/ It is a fire cracker experiment, and I know he will love it, but I am clueless as to how this makes my car run. -- Joe Leikhim K4SAT "The RFI-EMI-GUY"© Their is no explosion in a properly operating internal combustion engine. The fuel merely heats the air. The expansion of the air pushes the piston. An explosion called detonation or knock can put a hole in the piston. Some engines require higher octane fuel to keep knock from occurring. That seems to me to be a misleading description of the principles of an internal combustion engine. The fuel is mixed with the air in a very carefully controlled ratio, highly compressed, and is then set light to, either by a spark in the case of a gasoline engine, or by self ignition from the rapid heating of the mixture during compression, in the case of a diesel. It burns or combusts, and what comes out of the exhaust, after the burning, is not air, but a fully reduced residue of the burning process. The burning of the mixture under such intense pressure, in what is essentially a fully contained space, takes place at such speed, it would usually be considered to be representative of a controlled explosion. Detonation knock is normally as a result of the timing of the ignition source not being ideal for the engine in question. The detonation process should be started just before the piston reaches top dead centre, so that by the time the burning has spread fully from the initiating point - ie the spark plug - through the entire mixture, and is thus at its fiercest, the piston has rolled over past its point of being momentarily stationary, and is just beginning on its way back down the cylinder. The rapidly burning ( exploding ? ) mixture will then deliver maximum thrust to the piston, driving it down the cylinder bore. If the mixture starts to burn too early, it will reach maximum energy output before the piston has reached the top, so will oppose the upward movement of the piston, which is still occuring, leading to the pre-detonation knock. Maybe it is just semantics, and some may disagree, but that has always been my take on how an engine works, ever since I was first rebuilding them as a kid, because I couldn't afford repair shop prices !! Arfa Just as a matter of interest, I just looked up the word " explosion " at http://dictionary.reference.com/browse/explosion and interestingly, the first result, 5th definition, specifically mentions the internal combustion engine. The third result, definition 1a also seems to cover it neatly, as does the twelfth Arfa |
Single mother in need of explanation
"Arfa Daily" wrote in message ... "Arfa Daily" wrote in message ... "Captain Midnight" wrote in message ... "**THE-RFI-EMI-GUY**" wrote in message ... I assume the can is open on one end like a soup can, not a coke can. I think the water is there to provide an airtight, frictionless seal for more effect. Keeping the firercracker dry is tricky. This looks like a good use for the hundreds of firecrackers I have left over! What he is simulating is the explosion that happens in one of your cars engine cylinders. A car engine operates on a series of small controlled explosions. In your car, the explosive force drives a piston down, pushing a connecting rod which in turn rotates a crankshaft. A car engine has 4 to 8 cylinders which fire sequentially and smoothly. The links below illustrate this with a single cylinder like a lawnmower engine. These are "internal combustion engines". My sister did a similar science project years ago with a coffee can fitted with a spark plug and filled with a very small amount of gasoline or ether. A plastic lid was placed on top and an ignition coil made a spark which blew the plastic lid off. Not as dramatic as a fire cracker. http://www.keveney.com/otto.html http://en.wikipedia.org/wiki/Four-stroke_cycle Dumb_Blonde wrote: Thank you in advance for your time. I found a neat project to do with my 14 year old son, but would like to know the science behind it so it will be educational. Here is the video link. http://www.metacafe.com/watch/470767...ct_experiment/ It is a fire cracker experiment, and I know he will love it, but I am clueless as to how this makes my car run. -- Joe Leikhim K4SAT "The RFI-EMI-GUY"© Their is no explosion in a properly operating internal combustion engine. The fuel merely heats the air. The expansion of the air pushes the piston. An explosion called detonation or knock can put a hole in the piston. Some engines require higher octane fuel to keep knock from occurring. That seems to me to be a misleading description of the principles of an internal combustion engine. The fuel is mixed with the air in a very carefully controlled ratio, highly compressed, and is then set light to, either by a spark in the case of a gasoline engine, or by self ignition from the rapid heating of the mixture during compression, in the case of a diesel. It burns or combusts, and what comes out of the exhaust, after the burning, is not air, but a fully reduced residue of the burning process. The burning of the mixture under such intense pressure, in what is essentially a fully contained space, takes place at such speed, it would usually be considered to be representative of a controlled explosion. Detonation knock is normally as a result of the timing of the ignition source not being ideal for the engine in question. The detonation process should be started just before the piston reaches top dead centre, so that by the time the burning has spread fully from the initiating point - ie the spark plug - through the entire mixture, and is thus at its fiercest, the piston has rolled over past its point of being momentarily stationary, and is just beginning on its way back down the cylinder. The rapidly burning ( exploding ? ) mixture will then deliver maximum thrust to the piston, driving it down the cylinder bore. If the mixture starts to burn too early, it will reach maximum energy output before the piston has reached the top, so will oppose the upward movement of the piston, which is still occuring, leading to the pre-detonation knock. Maybe it is just semantics, and some may disagree, but that has always been my take on how an engine works, ever since I was first rebuilding them as a kid, because I couldn't afford repair shop prices !! Arfa Just as a matter of interest, I just looked up the word " explosion " at http://dictionary.reference.com/browse/explosion and interestingly, the first result, 5th definition, specifically mentions the internal combustion engine. The third result, definition 1a also seems to cover it neatly, as does the twelfth Arfa Ah, it could be a question of semantics ! It's just occured to me what you were saying. It is the pressure wave from the burning ( although I still think " exploding " covers it also ) mixture that drives the piston down, and not the actual burning mixture ( flame front is it called ? ), which should not actually touch the top of the piston before it burns out, and can cause damage, if it does. Yep ! that's it I reckon. We're both on the same page now. Sorry ... Arfa |
Single mother in need of explanation
Arfa Daily wrote:
"Arfa Daily" wrote in message ... "Captain Midnight" wrote in message .. . "**THE-RFI-EMI-GUY**" wrote in message . .. I assume the can is open on one end like a soup can, not a coke can. I think the water is there to provide an airtight, frictionless seal for more effect. Keeping the firercracker dry is tricky. This looks like a good use for the hundreds of firecrackers I have left over! What he is simulating is the explosion that happens in one of your cars engine cylinders. A car engine operates on a series of small controlled explosions. In your car, the explosive force drives a piston down, pushing a connecting rod which in turn rotates a crankshaft. A car engine has 4 to 8 cylinders which fire sequentially and smoothly. The links below illustrate this with a single cylinder like a lawnmower engine. These are "internal combustion engines". My sister did a similar science project years ago with a coffee can fitted with a spark plug and filled with a very small amount of gasoline or ether. A plastic lid was placed on top and an ignition coil made a spark which blew the plastic lid off. Not as dramatic as a fire cracker. http://www.keveney.com/otto.html http://en.wikipedia.org/wiki/Four-stroke_cycle Dumb_Blonde wrote: Thank you in advance for your time. I found a neat project to do with my 14 year old son, but would like to know the science behind it so it will be educational. Here is the video link. http://www.metacafe.com/watch/470767...ct_experiment/ It is a fire cracker experiment, and I know he will love it, but I am clueless as to how this makes my car run. -- Joe Leikhim K4SAT "The RFI-EMI-GUY"© Their is no explosion in a properly operating internal combustion engine. The fuel merely heats the air. The expansion of the air pushes the piston. An explosion called detonation or knock can put a hole in the piston. Some engines require higher octane fuel to keep knock from occurring. That seems to me to be a misleading description of the principles of an internal combustion engine. The fuel is mixed with the air in a very carefully controlled ratio, highly compressed, and is then set light to, either by a spark in the case of a gasoline engine, or by self ignition from the rapid heating of the mixture during compression, in the case of a diesel. It burns or combusts, and what comes out of the exhaust, after the burning, is not air, but a fully reduced residue of the burning process. The burning of the mixture under such intense pressure, in what is essentially a fully contained space, takes place at such speed, it would usually be considered to be representative of a controlled explosion. Detonation knock is normally as a result of the timing of the ignition source not being ideal for the engine in question. The detonation process should be started just before the piston reaches top dead centre, so that by the time the burning has spread fully from the initiating point - ie the spark plug - through the entire mixture, and is thus at its fiercest, the piston has rolled over past its point of being momentarily stationary, and is just beginning on its way back down the cylinder. The rapidly burning ( exploding ? ) mixture will then deliver maximum thrust to the piston, driving it down the cylinder bore. If the mixture starts to burn too early, it will reach maximum energy output before the piston has reached the top, so will oppose the upward movement of the piston, which is still occuring, leading to the pre-detonation knock. Maybe it is just semantics, and some may disagree, but that has always been my take on how an engine works, ever since I was first rebuilding them as a kid, because I couldn't afford repair shop prices !! Arfa Just as a matter of interest, I just looked up the word " explosion " at http://dictionary.reference.com/browse/explosion and interestingly, the first result, 5th definition, specifically mentions the internal combustion engine. The third result, definition 1a also seems to cover it neatly, as does the twelfth Arfa I especially like this definition. In fact anyone who has watched a nitro fueled dragster can attest to the violent explosive manner of those engines exhaust. Those engine builders avoid "detonation" at all costs. 1. A release of mechanical, chemical, or nuclear energy in a sudden and often violent manner with the generation of high temperature and usually with the release of gases. Most people don't think of the explosive process going on within an automobile engine because the process is very refined, by mufflers, flywheels and engine timing. -- Joe Leikhim K4SAT "The RFI-EMI-GUY"© "Treason doth never prosper: what's the reason? For if it prosper, none dare call it treason." "Follow The Money" ;-P |
Single mother in need of explanation
"Captain Midnight" wrote in message ... Their is no explosion in a properly operating internal combustion engine. Sure there is. But you want it at the correct time in the cycle. Knocking is caused by misfiring. |
Single mother in need of explanation
Arfa Daily wrote:
That seems to me to be a misleading description of the principles of an internal combustion engine. The fuel is mixed with the air in a very carefully controlled ratio, highly compressed, and is then set light to, either by a spark in the case of a gasoline engine, or by self ignition from the rapid heating of the mixture during compression, in the case of a diesel. It burns or combusts, and what comes out of the exhaust, after the burning, is not air, but a fully reduced residue of the burning process. To add to your excellent explanation, the byproducts of combustion, such as carbon dioxide, together occupy more volume than the fuel-air mixture did, and the heat generated by the rapid burn further increases the total volume. -- Martians drive SUVs! http://oregonmag.com/MarsWarm307.html |
Single mother in need of explanation
"Homer J Simpson" wrote in message
news:_DJJh.41829$lY6.17214@edtnps90... "Captain Midnight" wrote in message ... Their is no explosion in a properly operating internal combustion engine. Sure there is. But you want it at the correct time in the cycle. Knocking is caused by misfiring. Detonation is all of the fuel burning at once(explosion). A proper flame path will happen relatively slowly to push the piston(burn). The beginning of the burn is timed to push the piston when the crank is in the proper position. How long the burn lasts and it's timing is dependent on engine design and application. If an explosion was acceptable there'd be no need for high octane fuel. Apparently you've never seen a piston with a hole in the crown. It's like the difference of flipping a light switch with your finger or hitting it with a hammer. Pinging is hot spots in the combustion chamber causing self ignition at the wrong time. The extra heat from this can cause detonation though. |
Single mother in need of explanation
Detonation is all of the fuel burning at once(explosion). A proper flame
path will happen relatively slowly to push the piston(burn). tell me what is the change over point at which a "slow burn" turns to a explosion. u want the fuel to burn slow , so teh engine runs slower ? you are incorrect , dentonation is the IGNITING of fuel at the wrong time .. hmmm of course its a explosion, i`ll put u in a petrol vapour filled room with a sparkplug connected up to a engine , via a long plug lead, then i`ll crank the engine over KABOOM !!!!of course its gonna explode. "Captain Midnight" wrote in message ... "Homer J Simpson" wrote in message news:_DJJh.41829$lY6.17214@edtnps90... "Captain Midnight" wrote in message ... Their is no explosion in a properly operating internal combustion engine. Sure there is. But you want it at the correct time in the cycle. Knocking is caused by misfiring. Detonation is all of the fuel burning at once(explosion). A proper flame path will happen relatively slowly to push the piston(burn). The beginning of the burn is timed to push the piston when the crank is in the proper position. How long the burn lasts and it's timing is dependent on engine design and application. If an explosion was acceptable there'd be no need for high octane fuel. Apparently you've never seen a piston with a hole in the crown. It's like the difference of flipping a light switch with your finger or hitting it with a hammer. Pinging is hot spots in the combustion chamber causing self ignition at the wrong time. The extra heat from this can cause detonation though. |
Single mother in need of explanation
"mark krawczuk" wrote in message
... Detonation is all of the fuel burning at once(explosion). A proper flame path will happen relatively slowly to push the piston(burn). tell me what is the change over point at which a "slow burn" turns to a explosion. u want the fuel to burn slow , so teh engine runs slower ? you are incorrect , dentonation is the IGNITING of fuel at the wrong time . hmmm of course its a explosion, i`ll put u in a petrol vapour filled room with a sparkplug connected up to a engine , via a long plug lead, then i`ll crank the engine over KABOOM !!!!of course its gonna explode. "Captain Midnight" wrote in message ... "Homer J Simpson" wrote in message news:_DJJh.41829$lY6.17214@edtnps90... "Captain Midnight" wrote in message ... Their is no explosion in a properly operating internal combustion engine. Sure there is. But you want it at the correct time in the cycle. Knocking is caused by misfiring. Detonation is all of the fuel burning at once(explosion). A proper flame path will happen relatively slowly to push the piston(burn). The beginning of the burn is timed to push the piston when the crank is in the proper position. How long the burn lasts and it's timing is dependent on engine design and application. If an explosion was acceptable there'd be no need for high octane fuel. Apparently you've never seen a piston with a hole in the crown. It's like the difference of flipping a light switch with your finger or hitting it with a hammer. Pinging is hot spots in the combustion chamber causing self ignition at the wrong time. The extra heat from this can cause detonation though. Seems you are also incapable of understanding the difference between burning and an explosion too. |
Single mother in need of explanation
On Mar 19, 8:55 am, "mark krawczuk" wrote:
Detonation is all of the fuel burning at once(explosion). A proper flame path will happen relatively slowly to push The technical term is "High order reaction". The two options a (1) A flame front moves across the gas, taking milliseconds. That what happen when you light a match, or a spark plug fires in a properly operating innternal combustion engine. (2) High order: The reaction starts instantly at many places throught the materinal, as it's heated to its iginition point throughout. Takes place in nano to microseconds. That's what most explosives do. |
Single mother in need of explanation
"Ancient_Hacker" wrote in message
oups.com... On Mar 19, 8:55 am, "mark krawczuk" wrote: Detonation is all of the fuel burning at once(explosion). A proper flame path will happen relatively slowly to push The technical term is "High order reaction". The two options a (1) A flame front moves across the gas, taking milliseconds. That what happen when you light a match, or a spark plug fires in a properly operating innternal combustion engine. (2) High order: The reaction starts instantly at many places throught the materinal, as it's heated to its iginition point throughout. Takes place in nano to microseconds. That's what most explosives do. Bingo! And it produces a shock wave that combustion does not. |
Single mother in need of explanation
Captain Midnight wrote:
"Ancient_Hacker" wrote in message oups.com... On Mar 19, 8:55 am, "mark krawczuk" wrote: Detonation is all of the fuel burning at once(explosion). A proper flame path will happen relatively slowly to push The technical term is "High order reaction". The two options a (1) A flame front moves across the gas, taking milliseconds. That what happen when you light a match, or a spark plug fires in a properly operating innternal combustion engine. (2) High order: The reaction starts instantly at many places throught the materinal, as it's heated to its iginition point throughout. Takes place in nano to microseconds. That's what most explosives do. Bingo! And it produces a shock wave that combustion does not. Captain Midnight, huh? Tell me, what is the name of the street where the abandoned C-band uplink earth station that you used to jam HBO with ? -- Service to my country? Been there, Done that, and I've got my DD214 to prove it. Member of DAV #85. Michael A. Terrell Central Florida |
Single mother in need of explanation
"Michael A. Terrell" wrote in message ... Captain Midnight, huh? Tell me, what is the name of the street where the abandoned C-band uplink earth station that you used to jam HBO with ? http://www.macdougallelectronics.com/bio.html |
Single mother in need of explanation
Captain Midnight wrote:
"Michael A. Terrell" wrote in message ... Captain Midnight, huh? Tell me, what is the name of the street where the abandoned C-band uplink earth station that you used to jam HBO with ? http://www.macdougallelectronics.com/bio.html I already know that, but where is the location of the earth station used to Jam HBO, or even the name of the company that built the equipment? -- Service to my country? Been there, Done that, and I've got my DD214 to prove it. Member of DAV #85. Michael A. Terrell Central Florida |
Single mother in need of explanation
hi, read this "
There are three rates of combustion; ordinary combustion, explosion (Rapid Combustion), and detonation.. look around onthe net , hmmmmm rapid combustion , err COMBUSTION !!!!! OR EXPLOSION,.... i am right. "Captain Midnight" wrote in message ... "Ancient_Hacker" wrote in message oups.com... On Mar 19, 8:55 am, "mark krawczuk" wrote: Detonation is all of the fuel burning at once(explosion). A proper flame path will happen relatively slowly to push The technical term is "High order reaction". The two options a (1) A flame front moves across the gas, taking milliseconds. That what happen when you light a match, or a spark plug fires in a properly operating innternal combustion engine. (2) High order: The reaction starts instantly at many places throught the materinal, as it's heated to its iginition point throughout. Takes place in nano to microseconds. That's what most explosives do. Bingo! And it produces a shock wave that combustion does not. |
Single mother in need of explanation
no one challenging me .........
] "mark krawczuk" wrote in message ... hi, read this " There are three rates of combustion; ordinary combustion, explosion (Rapid Combustion), and detonation.. look around onthe net , hmmmmm rapid combustion , err COMBUSTION !!!!! OR EXPLOSION,.... i am right. "Captain Midnight" wrote in message ... "Ancient_Hacker" wrote in message oups.com... On Mar 19, 8:55 am, "mark krawczuk" wrote: Detonation is all of the fuel burning at once(explosion). A proper flame path will happen relatively slowly to push The technical term is "High order reaction". The two options a (1) A flame front moves across the gas, taking milliseconds. That what happen when you light a match, or a spark plug fires in a properly operating innternal combustion engine. (2) High order: The reaction starts instantly at many places throught the materinal, as it's heated to its iginition point throughout. Takes place in nano to microseconds. That's what most explosives do. Bingo! And it produces a shock wave that combustion does not. |
Single mother in need of explanation
What? You haven't received your Net Wit award yet?
"mark krawczuk" wrote in message ... no one challenging me ......... ] "mark krawczuk" wrote in message ... hi, read this " There are three rates of combustion; ordinary combustion, explosion (Rapid Combustion), and detonation.. look around onthe net , hmmmmm rapid combustion , err COMBUSTION !!!!! OR EXPLOSION,.... i am right. "Captain Midnight" wrote in message ... "Ancient_Hacker" wrote in message oups.com... On Mar 19, 8:55 am, "mark krawczuk" wrote: Detonation is all of the fuel burning at once(explosion). A proper flame path will happen relatively slowly to push The technical term is "High order reaction". The two options a (1) A flame front moves across the gas, taking milliseconds. That what happen when you light a match, or a spark plug fires in a properly operating innternal combustion engine. (2) High order: The reaction starts instantly at many places throught the materinal, as it's heated to its iginition point throughout. Takes place in nano to microseconds. That's what most explosives do. Bingo! And it produces a shock wave that combustion does not. |
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