Flight Path Angle-Math Question

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Cygnus_2112

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<p><BR/>Replying to:<BR/><DIV CLASS='Discussion_PostQuote'> The shuttle path for example will appear slightly different on a direct insertion OMS burn mission than it would for a two oms burn mission. &nbsp; <br /> Posted by qso1</DIV></p><p>&nbsp;</p><p>Not really.&nbsp; that only affects the end condtion.&nbsp; Most of the trajectory is the same. &nbsp;&nbsp;</p>

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qso1

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<p>I've seen direct insertion and standard shuttle missions at launch and there is a noticeable difference in the climbout. And your probably right, it may not mean anything but right now, I want to see some actual NASA trajectory data that shows exactly how this works before reaching any further conclusions.&nbsp;</p> <div class="Discussion_UserSignature"> <p><strong>My borrowed quote for the time being:</strong></p><p><em>There are three kinds of people in life. Those who make it happen, those who watch it happen...and those who do not know what happened.</em></p> </div>

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Cygnus_2112

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<p><BR/>Replying to:<BR/><DIV CLASS='Discussion_PostQuote'>I've seen direct insertion and standard shuttle missions at launch and there is a noticeable difference in the climbout. And your probably right, it may not mean anything but right now, I want to see some actual NASA trajectory data that shows exactly how this works before reaching any further conclusions.&nbsp; <br /> Posted by qso1</DIV></p><p>&nbsp;</p><p>The only thing one would be able to discern from watching a launch is the inclination.&nbsp; For the shuttle, the trajectory from launch to SRB sep is exactly the same&nbsp;</p>

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qso1

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<p>I agree there, I eyeball the inclination from watching and I did say what I saw may not mean anything. I said that because I'm mainly working off my memory which isn't so hot anyway, I need to verify it graphically with NASA documents.</p><p>I'm sure you probably know this already but nothing is exactly the same. I just would like to go ahead and see a NASA trajectory schematic of some kind to see where we all are right, wrong, or pretty close. Unfortunately, it appears there is no easy way to get such a schematic.</p><p>I also wanted to see it in a form similar to what I would do if I made a graphic of one based on all the numbers I would need.&nbsp;</p> <div class="Discussion_UserSignature"> <p><strong>My borrowed quote for the time being:</strong></p><p><em>There are three kinds of people in life. Those who make it happen, those who watch it happen...and those who do not know what happened.</em></p> </div>

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kyle_baron

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<p><BR/>Replying to:<BR/><DIV CLASS='Discussion_PostQuote'> Unfortunately, it appears there is no easy way to get such a schematic.I also wanted to see it in a form similar to what I would do if I made a graphic of one based on all the numbers I would need.&nbsp; <br />Posted by qso1</DIV></p><p>&nbsp;</p><p>These are some of the numbers I got from the "You Tube" video of STS-124:</p><p>Altitude:&nbsp; Down Range:</p><p>5&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; 8.5 </p><p>22&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;23&nbsp; (45 Deg. Trajectory before SRB seperation)</p><p>37&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;50&nbsp; (after SRB seperation)</p><p>52&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;100</p><p>62&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;170</p><p>&nbsp;</p><p>It would appear that after SRB seperation, the trajectory angle flattens out considerably.</p> <div class="Discussion_UserSignature"> <p><font size="4"><strong></strong></font></p> </div>

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Cygnus_2112

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<p><BR/>Replying to:<BR/><DIV CLASS='Discussion_PostQuote'>&nbsp; It would appear that after SRB seperation, the trajectory angle flattens out considerably. <br /> Posted by kyle_baron</DIV></p><p>That is true for most orbital launches regardless of vehicle.&nbsp; Altitude is easy to achieve, velocity is the hard part </p>

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qso1

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<p><font color="#800080">It would appear that after SRB seperation, the trajectory angle flattens out considerably. Posted by kyle_baron</font></p><p>The only thing thats still a little bit of a mystery is the 45 degree angle going to 22 degrees by the time the SRBs separate but other than that. The data is fairly close to what I imagines and like Cygnus2112 says...all LVs are about the same with regard to ascent profiles.&nbsp;</p> <div class="Discussion_UserSignature"> <p><strong>My borrowed quote for the time being:</strong></p><p><em>There are three kinds of people in life. Those who make it happen, those who watch it happen...and those who do not know what happened.</em></p> </div>

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MeteorWayne

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Replying to:<BR/><DIV CLASS='Discussion_PostQuote'>It would appear that after SRB seperation, the trajectory angle flattens out considerably. Posted by kyle_baronThe only thing thats still a little bit of a mystery is the 45 degree angle going to 22 degrees by the time the SRBs separate but other than that. The data is fairly close to what I imagines and like Cygnus2112 says...all LVs are about the same with regard to ascent profiles.&nbsp; <br />Posted by qso1</DIV><br /><br />It's really not a mystery. the idea is to get through the atmosphere ASAP. From what I would imagine, you go up quick then tilt over more and more as you go along (height vs velocity. IIRC, Max Q (dynamic pressure ) is about 70 seconds in ("go at throttleup") after that you can work on gaining velocity. <div class="Discussion_UserSignature"> <p><font color="#000080"><em><font color="#000000">But the Krell forgot one thing John. Monsters. Monsters from the Id.</font></em> </font></p><p><font color="#000080">I really, really, really, really miss the "first unread post" function</font><font color="#000080"> </font></p> </div>

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qso1

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<p><font color="#800080">It's really not a mystery. the idea is to get through the atmosphere ASAP. From what I would imagine, you go up quick then tilt over more and more as you go along (height vs velocity. IIRC, Max Q (dynamic pressure ) is about 70 seconds in ("go at throttleup") after that you can work on gaining velocity. Posted by MeteorWayne</font></p><p>Mystery was a bad choice of words on my part and I understand all what you mentioned but you would actually get above the atmosphere faster if you were at a higher climbout angle. If you pitch down sooner, relative to the horizon...your increasing your forward ground track and remaining in the atmosphere that much longer I would think.</p><p>I graphed it out and the yellow track shows that the higher pitch angle reaches higher altitude faster than the lower (White) pitch angle trajectory. The numbers given simply indicate the shuttle does not have to go quite as high as I thought previously before pitching to the 20 some odd degrees it needs to be at for SRB sep.</p><p><br /> <img src="http://sitelife.space.com/ver1.0/Content/images/store/11/5/eb9c6ae0-84a4-44d8-85fd-954cab2e0c81.Medium.jpg" alt="" /><br />&nbsp;</p> <div class="Discussion_UserSignature"> <p><strong>My borrowed quote for the time being:</strong></p><p><em>There are three kinds of people in life. Those who make it happen, those who watch it happen...and those who do not know what happened.</em></p> </div>

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kyle_baron

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Replying to:<BR/><DIV CLASS='Discussion_PostQuote'> <p><br />Replying to:</p><div class="Discussion_PostQuote">&nbsp; It would appear that after SRB seperation, the trajectory angle flattens out considerably. <br />Posted by kyle_baron</div><p>&nbsp;</p><p>That is true for most orbital launches regardless of vehicle.&nbsp; Altitude is easy to achieve, velocity is the hard part </p><p><br />Posted by Cygnus_2112</DIV></p><p>&nbsp;</p><p>Ok, but will it be true for Ares I which will have to accomodate additional payload?&nbsp; Why wouldn't the steeper trajectory work better with more payload?<br /></p> <div class="Discussion_UserSignature"> <p><font size="4"><strong></strong></font></p> </div>

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qso1

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<p><font color="#800080">Ok, but will it be true for Ares I which will have to accomodate additional payload?&nbsp; Why wouldn't the steeper trajectory work better with more payload? Posted by kyle_baron</font></p><p>Makes sense to me but until we can see detail data from NASA, I doubt anyone can know for certain what Ares ascent parameters will be. I did a book years ago (Never able to pub it) that featured a section on the shuttle RTLS and at SRB sep, I have the shuttle at probably 45 degrees pitch down.</p><p>Thats was when I did my search for detail data to confirm what I thought might be the actual angle. I had to guess and did essentially the same thing you did when trying to figure out what the pitch angle should be. Nice thing about 3D illustration is the ability to scale...even distances in hundreds of miles.</p><p>The image was scaled as to downrange distance and altitude. The shuttle is pitched down which can be easily done and to tenths of a degree if one wants.<br /> <img src="http://sitelife.space.com/ver1.0/Content/images/store/5/5/1530e8f1-d814-440f-a59c-5eb76c6e0198.Medium.jpg" alt="" /><br />&nbsp;</p> <div class="Discussion_UserSignature"> <p><strong>My borrowed quote for the time being:</strong></p><p><em>There are three kinds of people in life. Those who make it happen, those who watch it happen...and those who do not know what happened.</em></p> </div>

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Cygnus_2112

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<p><BR/>Replying to:<BR/><DIV CLASS='Discussion_PostQuote'>&nbsp;Ok, but will it be true for Ares I which will have to accomodate additional payload?&nbsp; Why wouldn't the steeper trajectory work better with more payload? <br /> Posted by kyle_baron</DIV></p><p>&nbsp;</p><p>Can't answer that.&nbsp; There are many other factors which will determine the trajectory.&nbsp;&nbsp; </p>

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kyle_baron

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<p><BR/>Replying to:<BR/><DIV CLASS='Discussion_PostQuote'>&nbsp;Replying to:</p><div class="Discussion_PostQuote">&nbsp;Ok, but will it be true for Ares I which will have to accomodate additional payload?&nbsp; Why wouldn't the steeper trajectory work better with more payload? <br />Posted by kyle_baron</div><p>&nbsp;</p><p>&nbsp;</p><p>Can't answer that.&nbsp; There are many other factors which will determine the trajectory.&nbsp;&nbsp; </p><p></DIV></p><p>&nbsp;</p><p>Oh, come on now, why play it safe?&nbsp; Why not speculate?&nbsp; <img src="http://sitelife.space.com/ver1.0/content/scripts/tinymce/plugins/emotions/images/smiley-wink.gif" border="0" alt="Wink" title="Wink" />&nbsp; At what trajectories do you think Ares I should be at, before and after&nbsp;SRB seperation?&nbsp; Say G-Loads on the astronauts aren't a problem, and down range issues (we blow up the 2nd stage) isn't an issue.</p><p>&nbsp;</p><p><br /><br />&nbsp;</p> <div class="Discussion_UserSignature"> <p><font size="4"><strong></strong></font></p> </div>

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kyle_baron

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<p><BR/>Replying to:<BR/><DIV CLASS='Discussion_PostQuote'>The image was scaled as to downrange distance and altitude. The shuttle is pitched down which can be easily done and to tenths of a degree if one wants. &nbsp; <br />Posted by qso1</DIV></p><p>&nbsp;</p><p>I <strong>LOVE</strong> those images, keep'em comming.&nbsp;&nbsp; This latest one is very interesting, from LEO, I assume.</p> <div class="Discussion_UserSignature"> <p><font size="4"><strong></strong></font></p> </div>

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qso1

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<p><font color="#800080">I LOVE those images, keep'em comming.&nbsp;&nbsp; This latest one is very interesting, from LEO, I assume. <br /> Posted by kyle_baron</font></p><p>Thanks, glad you liked the images. The latest one would be from the vantage point of a camera near the shuttle during SRB sep if you could have a free flying camera go along for the ascent.&nbsp;</p> <div class="Discussion_UserSignature"> <p><strong>My borrowed quote for the time being:</strong></p><p><em>There are three kinds of people in life. Those who make it happen, those who watch it happen...and those who do not know what happened.</em></p> </div>

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stanwhite

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<p><BR/>Replying to:<BR/><DIV CLASS='Discussion_PostQuote'>I LOVE those images, keep'em comming.&nbsp;&nbsp; This latest one is very interesting, from LEO, I assume. Posted by kyle_baronThanks, glad you liked the images. The latest one would be from the vantage point of a camera near the shuttle during SRB sep if you could have a free flying camera go along for the ascent.&nbsp; <br />Posted by qso1</DIV></p><p>Here is a similar math question,&nbsp;one that&nbsp;it seems NASA has never addressed. What are the advantages of launching at&nbsp;a&nbsp;mountaintop&nbsp;space pad?&nbsp;</p><p>1)&nbsp;30% less&nbsp;air resistance</p><p>2) MaxQ is less a&nbsp;limit, if any</p><p>3)&nbsp;The rocket plume is better, a big plus for TSTO</p><p>Here is some background &nbsp;http://www.g2mil.com/high.htm</p><p><br /><br />&nbsp;</p>

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Cygnus_2112

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<p><BR/>Replying to:<BR/><DIV CLASS='Discussion_PostQuote'>Here is a similar math question,&nbsp;one that&nbsp;it seems NASA has never addressed. What are the advantages of launching at&nbsp;a&nbsp;mountaintop&nbsp;space pad?&nbsp;1)&nbsp;30% less&nbsp;air resistance2) MaxQ is less a&nbsp;limit, if any3)&nbsp;The rocket plume is better, a big plus for TSTOHere is some background &nbsp;http://www.g2mil.com/high.htm <br /> Posted by stanwhite</DIV></p><p>&nbsp;They have been answered by the fact there isn't a mountain top pad</p><p>1.&nbsp; No US mountains on the coastlines</p><p>2.&nbsp; Logistics of building and maintaining a facility on a mountain </p><p>3.&nbsp; problems of getting a large vehicle to the mountain top</p><p>&nbsp;The link is nothing but a kook site</p><p>&nbsp;</p>

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qso1

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<p><font color="#800080">Here is a similar math question,&nbsp;one that&nbsp;it seems NASA has never addressed. What are the advantages of launching at&nbsp;a&nbsp;mountaintop&nbsp;space pad?&nbsp;1)&nbsp;30% less&nbsp;air resistance2) MaxQ is less a&nbsp;limit, if any3)&nbsp;The rocket plume is better, a big plus for TSTOHere is some background &nbsp;http://www.g2mil.com/high.htm Posted by stanwhite</font></p><p>I would expect that there would be an advantage if the mountain is high enough. Problem is, as the previous post mentions, the really high mountains are logistically difficult to provide support for. Problem one being range safety. Range safety was the primary reason for selection of Cape Canaveral in the early days of rocket launching when White Sands missile range had been outgrown. White Sands was a desert location for the most part but they had to relocate when missiles exceeded the range safety limitations.</p><p>Mauna Kea in Hawaii would be an ideal candidate but much of that high altitude real estate goes for observatories. Hawaii would probably be pushing the edge of practical logistical support also. TSTO would probably benefit if a system like Rutans becomes available and practical in time.</p><p>This because the carrier aircraft would operate no differently from a range safety standpoint than commercial airlines&nbsp;</p> <div class="Discussion_UserSignature"> <p><strong>My borrowed quote for the time being:</strong></p><p><em>There are three kinds of people in life. Those who make it happen, those who watch it happen...and those who do not know what happened.</em></p> </div>

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stanwhite

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<p><BR/>Replying to:<BR/><DIV CLASS='Discussion_PostQuote'>Here is a similar math question,&nbsp;one that&nbsp;it seems NASA has never addressed. What are the advantages of launching at&nbsp;a&nbsp;mountaintop&nbsp;space pad?&nbsp;1)&nbsp;30% less&nbsp;air resistance2) MaxQ is less a&nbsp;limit, if any3)&nbsp;The rocket plume is better, a big plus for TSTOHere is some background &nbsp;http://www.g2mil.com/high.htm Posted by stanwhiteI would expect that there would be an advantage if the mountain is high enough. Problem is, as the previous post mentions, the really high mountains are logistically difficult to provide support for. Problem one being range safety. Range safety was the primary reason for selection of Cape Canaveral in the early days of rocket launching when White Sands missile range had been outgrown. White Sands was a desert location for the most part but they had to relocate when missiles exceeded the range safety limitations.Mauna Kea in Hawaii would be an ideal candidate but much of that high altitude real estate goes for observatories. Hawaii would probably be pushing the edge of practical logistical support also. TSTO would probably benefit if a system like Rutans becomes available and practical in time.This because the carrier aircraft would operate no differently from a range safety standpoint than commercial airlines&nbsp; <br />Posted by qso1</DIV></p><p>I was more interested in the math aspect, since the Russians launch from much higher. Keep in mind that the flatlands at Tonopah are at 6000 feet, and Chlie has a plain at 14,000 feet. I won't discuss the impractical logistics of moving the SRBs from Florida to Utah and back.</p><p>I realize that some think any website that is not nasa.gov is a "kook" site, but then such persons do not realize that the tallest mountain in the World is in the USA, next to the ocean. Tallest, not highest. May I suggest that you read a website before you demean it with childish insults. You will learn things, if that is possible.</p><p>Back to the math question, the link poses some general calculations, on such "kooky" things like rocket plumes. Anyone here want to address the math?</p>

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Cygnus_2112

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<p><BR/>Replying to:<BR/><DIV CLASS='Discussion_PostQuote'>I was more interested in the math aspect, since the Russians launch from much higher. Keep in mind that the flatlands at Tonopah are at 6000 feet, and Chlie has a plain at 14,000 feet. I won't discuss the impractical logistics of moving the SRBs from Florida to Utah and back.I realize that some think any website that is not nasa.gov is a "kook" site, but then such persons do not realize that the tallest mountain in the World is in the USA, next to the ocean. Tallest, not highest. May I suggest that you read a website before you demean it with childish insults. You will learn things, if that is possible.Back to the math question, the link poses some general calculations, on such "kooky" things like rocket plumes. Anyone here want to address the math? <br /> Posted by stanwhite</DIV></p><p>&nbsp;</p><p>It has nothing to do with nasa.gov, there are many none NASA websites that a good, just not this one.&nbsp; I read the website and stand behind my comments.&nbsp; </p><p><br /><strong>Baikonur</strong>, the Russian space center for manned mission isn't "higher".&nbsp; It is only about 100 meters above sea level, no real advantage.</p><p>The plume issue isn't simple math.&nbsp; It just means a nozzle doesn't have to be designed to operate from sea level to altitube but can be optimized for operation at altitude, which means it can increase the efficiency of the engine</p><p>Anyways tallest doen't matter, highest doe. </p><p> &nbsp;</p>

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