Manual - update 4.PSP
Contents
1. e Exit Cone Angle The angle between the exit cone wall and the exit cone centerline in degrees This angle is used to compute the divergence loss of the exit cone e Throat Erosion Input the expected amount of throat erosion in mils second This is the erosion on the radius of the throat For example if the radius of the throat eroded at a rate of 1 mil second the throat diameter would erode at a rate of 2 mils second The diameter always being twice the throat radius Note 1 mil second 0 001 inches second 6 How To Make Amateur Rockets Software Manual e Ambient Pressure Enter atmospheric pressure in psia corresponding to the launch site elevation above sea level You can use Table 1 in this manual to obtain the corresponding pressures for a given launch elevation e Fixed C If you do not want the software to calculate a nozzle coefficient but want to input your own Then input a value above 0 1 Otherwise leave it set equal to zero e Nozzle Loss This is the percentage of thrust loss in the nozzle due to nozzle inefficiency metal particles in the exhaust stream heat loss to the nozzle walls etc You may want to input a value of around 91 for metal particles in the flow two phase flow losses and heat loss e Propellant Outer Diameter Outer diameter of the propellant e Bore Diameter Diameter of the bore for a core or moon burner e Length of Propellant This is the length of the propellant inside the chamber If yo2. How To Make Amateur Rockets Software Manual USERS MANUAL For How to Make Amateur Rockets Software The software programs are designed to run on Windows 95 98 ME or XP Home Edition Follow the installation instructions supplied with the CD and this manual for installing the software on your computer Once all the software is installed on your computer you can run any program by double clicking on its icon Most of the programs will come with default numbers To change the numbers simply move the cursor with your mouse to the appropriate number and click your mouse on the number Use the backspace or delete key to remove the default number and put in your number When all the numbers have been changed to suit your case click on the calculate button to calculate the output To exit from a program close its window CHEM II CHEM II calculates the thermochemistry parameters associated with your particular propellant formulation The input is rather simple The chamber pressure is input in units of psia and the exit pressure is input in units of psia The chamber pressure should reflect what you expect your motor to run at on average The exit pressure would the exit pressure at the end of your exit cone Normally this is input as the local atmospheric pressure For sea level this would be 14 7 psia The table below lists atmospheric pressures for various altitudes above sea level This number is not really important except for the calculation
3. be shown The static center of pressure corresponds to when your rocket is sitting on the pad and not moving The dynamic center of pressure corresponds to when the rocket is in flight You can print a copy of the drawing and your numbers by clicking on the print form button 11 BURNRATE This program will be very handy in converting your burnrate data into the needed burn rate equation coefficient and exponent You also won t have to buy graph paper as mentioned in the book You will need at least two points of pressure vs burnrate to use the program It doesn t matter whether they come from the static firings or strand burnrate tests It is preferable to have the points cover as large a pressure range as possible Enter the pressure vs burnrate points in the frames on the upper right hand side of the screen They must be entered with the least pressure first and then in ascending pressure order Enter the number of points without using a decimal point Select a maximum pressure range by clicking on the appropriate range Usually this is the range that covers your highest pressure point Best Fit Data Click on this button to give the best values for c and n using a least squares curve fitting routine Click on the Plot button to see the best fit results overlaid on your data This method assumes that each of your data points has the same degree of accuracy or are of equal confidence level Manual Fit of Data You can manually input
4. separated from the exit cone walls If it does not separate FPRED will display a statement that it does not separate You can also see chamber pressure vs time thrust vs time propellant weight vs time and delivered thrust coefficient C vs time plots by clicking on the appropriate button in the performance graphs frame and then clicking on the graph button You cannot obtain plots until you have clicked on the Calculate button If you want a copy of the graph sent to your printer click on the print button of the graph screen When you have your motor design I would recommend getting a printout of that design Click on the print output option button and then click on the calculate button Now the output will be sent to your printer THERM Temperature profiles and ablation of the rocket motor parts including the nozzle are calculated using the THERM software program Under the tools button it can also 8 How To Make Amateur Rockets Software Manual calculated aerodynamic heating on a rocket body or nosecone THERM is a transient thermal conduction program that includes ablating surfaces The method of determining the amount of ablation is based on a melting temperature and heat of fusion This same model has been adopted for ablating materials by setting the melting temperature to the ablation temperature and the heat of fusion to the heat of ablation Only the surface material can ablate or melt and it will not start to melt or
5. values for c and n This may be a good option if all of the data points are not as accurate or at the same level of confidence In this case you may want to start with the least squares best fit data values and then adjust c and n to basis the results toward the better data points To increase the slope of the burnrate equation increase the value of the exponent which is n If its slope is too steep then decrease the exponent value It is best to adjust the slope first until you are satisfied with it Once the slope is what you want you can shift the equation line up or down by changing the value of c To shift the equation line up increase the value of c To shift the equation line down decrease the value of c 12 How To Make Amateur Rockets Software Manual You can change the scale ranges with the maximum pressure option buttons to help you see the lines better for a better match As you get closer you may also want to go back and adjust the exponent again Try to match the curves as closely as possible When you are done read off the coefficient and exponent and now you have the burnrate equation for your propellant You can print a copy of the whole form by clicking on the print button As you get more data you may want to revisit this program to fine tune your burn rate parameters CENTER OF GRAVITY CALCULATOR The Center of Gravity Calculator cg calc will be useful in estimating the center of gravity of you
6. ED Click on Motor Data on the top part of the screen and then click on Read FPRED Data where it will ask for the filename you saved the FPRED thrust vs time curve under Make sure you click on the File Input button if you are using this option e Calculate Click on this button for FLIGHT to calculate the trajectory of your rocket based on the input parameters Output and the thrust vs time curve cannot be graphed until you click on the Calculate button How To Make Amateur Rockets Software Manual e Graph Thrust vs Time You can graph the file or manual input of the thrust vs time curve and print it out or save it to file To do this you must have pressed the Calculate button first Click on Motor Data on top of the screen and then click on Graph Thrust Time Curve Output Variables When you run the program you have the option of having a printed output or not Key trajectory output parameters will be displayed on the bottom of the screen such as the velocity of the rocket as it leaves the launch rod maximum velocity maximum aerodynamic compression load maximum acceleration maximum altitude and the time of maximum altitude You can see a plot of these key parameters as a function of time by clicking on the appropriate parameter in the Graph of Output frame and then clicking on the Plot button You send any plot to your printer by clicking on the print button in the appropriate graph screen The plots can be printed o
7. ablate until it reaches the melt ablation temperature Input Variables e Final Time This is the end time of the thermal calculations Normally this is equal to the burn time of your motor e Print Time This is the print increment of the output Make sure the last print increment will land on your final time For example if your final time is 5 seconds and the print time is 2 seconds you will get an output page at 0 2 and 4 seconds You will not get an output at the final time of 5 seconds A print time of 1 second would solve this problem by giving an output at 0 1 2 3 4 and 5 seconds e Calculation Increment This is set to 0 01 and you should not have to change it for any case you run It is the time step used in the calculations If the program is having troubles converging on a solution this may have to be decreased to 0 001 but it will increase the run time e Number of Materials Click on the number of different materials or material layers in your thermal cut e Number of Nodes and Node Thickness You will have to specify the number of nodes and their thickness A node is where a temperature will be calculated by the program Node thickness is the thickness of a single node As a rule of thumb I would not go thicker than 0 10 for a node You want the number of nodes and node thickness to give you the thickness of the material The program will take the number of nodes input add one to it and multiply it by the node thick
8. before the output can be plotted It does not calculate output until the calculate button is clicked I receive an error message that a double decimal point is in my input windows but I don t have a double decimal point This error will occur when the software is run in countries where a comma symbol is used instead of a period symbol for the decimal point ina number At the present time the only fix for this is to set the Windows operating system Regional Setting to the United States This can be done by going in the Windows Control Panel and double clicking on the Regional and Languages Option button When you are done running the software you can set the Regional Setting back to your country A fix is being worked on and we hope it will be available by the end of 2006 19 How To Make Amateur Rockets Software Manual Appendix B Saving FPRED Thrust Time Curves For Use In Trajectory Software The thrust time curve calculated in FPRED can be saved for use in the software program FLIGHT or in a wRasp format which can be read by other trajectory programs You can set the options for saving the thrust time curve for either format by clicking on Program Options in FPRED and then clicking on FLIGHT wRasp Options This will bring up a new screen where you set different parameters required by each format Input Parameters Required By Both FLIGHT and wRasp You must select either mass ratio or inert weight for savin
9. by clicking on either straight core segmented C Slot moon burner or end burner In the end restrictions frame select the number of end restrictions When a propellant end is restricted it cannot burn on that end In real life this would be achieved by coating that end with rubber If a straight core burner is restricted on both ends it can only burn in the bore in a radial direction In most designs no ends are restricted You can also toggle erosive burning on or off by clicking on the appropriate button After you have changed all the variables for your case click on the calculate button to obtain output It is suggested that you run the program with the No Printout button turned on You will notice that the key motor parameters will be displayed on the bottom of your screen These parameters include maximum chamber pressure burn time initial thrust average thrust maximum thrust time of maximum thrust propellant weight total motor impulke delivered thrust coefficienct C optimum C based on average chamber pressure burnout throat diameter exit cone divergence loss and an optimum exit diameter of the exit cone based on average chamber pressure FPRED also looks at the pressure inside the exit cone during the motor burn and determines if the exit cone overexpands the gas pressure to the point where it will separate from the exit cone walls If this happens FPRED will print a statement in the Key Output Parameters box that the flow has
10. ces on the rocket over time to calculate the altitude The forces considered are gravity thrust and aerodynamic drag The drag coefficient is constant with time Input Variables ge Inert Weight of Rocket This is the weight of the rocket less the motor Don t forget to include the weight of the recovery system and parachute e Diameter Outer diameter of your rocket e Drag Coefficient The average drag coefficient for your rocket e Launch Elevation The altitude of the launch site in feet above sea level e Rod Angle Angle of launch rod from vertical in degrees Vertical straight up is zero degrees Five degrees is five degrees off of vertical e Rod Length The length of the launch rod in feet that the rocket must travel to leave the rod The pitch of the rocket will be the same as the launch rod angle until the rocket leaves the rod for all Pitch options How To Make Amateur Rockets Software Manual e Pitch Fixed or Zero Angle of Attack You have two options for calculating the path of your rocket for a non vertical launch angle The Zero Angle of Attack option is the most realistic flight mode for your rocket as it will try to fly at zero angle of attack It will give the most downrange trajectory The Fixed Pitch option means the rocket does not turn during flight but flies the same pitch angle as the launch rod angle during its flight This represents the least downrange trajectory In actual flight your rocket
11. g of the propellant FPRED also calculates the thrust loss due to an exit cone that is too large for the chamber pressure In this case the gases in the exit cone are expanded to values below ambient pressure In extreme cases the gases can be expanded down to a pressure where they no longer are attached to the exit cone walls and the flow separates FPRED calculates whether the flow separates in the exit cone and takes this into account in the thrust calculations It also displays a warning to the user when this happens Input Variables e Density of propellant This density can be the density from the output of CHEM or a measured density e C star of propellant Input the C star value for 100 combustion efficiency from CHEM or from another thermochemistry software program e Combustion Efficiency This value is multiplied the C star of the propellant to obtain the delivered C star of the motor A realistic value for small motors typically used by amateurs is between 75 to 90 Coefficient This is the coefficient c from the burn rate equation r c Pm e Exponent This is the exponent n from the burn rate equation r c P e Gamma Input the gamma value from the CHEM output It is shown as C C in the output of CHEM under chamber conditions e Throat Diameter The throat diameter before ignition e Exit Cone Diameter The diameter of the exit cone at its exit plane or simply the largest diameter in the exit cone
12. g the motor weight for use in trajectory programs Click on the button for either mass ratio or inert weight and enter the appropriate value If you select inert weight the inert weight of the motor is fixed at the value you input in pounds Under this option the inert weight does not change even if the propellant weight decreases or increases This option is handy for designing motors using reload hardware In this case the weight of the inert reload hardware is fixed Note Motor weight Inert weight Propellant weight The mass fraction option is useful if you are designing a complete motor from scratch and not using reload hardware In this case the propellant weight is usually a fixed fraction of the total motor weight For example if you input 0 7 for the mass fraction and the propellant weight is 5 pounds the motor weight will be 7 14 pounds The mass fraction is equal to the propellant weight divided by the total motor weight Note Mass fraction Propellant weight Motor weight 20 How To Make Amateur Rockets Software Manual Or Motor weight Propellant weight Mass fraction For PVC pipe motors the mass fraction is around 0 5 to 0 6 For aluminum case motors you can expect to achieve values ranging from 0 7 to 0 8 Professional large motors are around 0 9 Input Parameters Required By wRasp Only For saving the thrust time curve in the wRasp format you will need to provide information on the motor d
13. iameter length and parachute ejection delay time If you are not using a delay element in your motor for firmg a parachute ejection charge input a value of zero If you are using a delay element in the motor input the time from motor burnout to ejection charge firing in seconds The motor diameter and length are used in millimeter units If you are using reload hardware the diameter and length in millimeters is known Simply enter the diameter and length in the boxes marked for millimeter units In the case of total scratch built motors the dimensions for the diameter and length are most likely known in inches For your convenience FPRED will make the conversion for you from inches to millimeters Simply input the motor diameter and length in the boxes marked for inch units To convert those values to millimeters simply click on the button labeled convert from inches to mm You will see the numbers in the millimeter boxes change reflecting the unit conversion IMPORTANT For All File Formats After you have entered all your required input values for motor diameter length time delay mass fraction or inert weight you must click on the button labeled Click To Update Parameters This will save your values in the program If you do not click on this button you input values will not be used by FPRED when saving the thrust time curves 21
14. mateur Rockets Software Manual as fins are attached to the furthest aft end of the body tube If the fin is attached to the body tube a few inches up from the aft end of the body tube then enter that distance here This distance is entered in inches e Parachute bulkhead weight Total weight including all fittings of the bulkhead where the parachute rigging attaches in pounds e Parachute bulkhead distance from aft end of body tube The distance of the bulkhead measured from the base or aft end of the rocket body tube in inches Up to seven miscellaneous parts can also be entered into the software e Item description Describe the part e Item s distance from body aft end The distance of the part s center of gravity to the aft end of the rocket body tube in inches e Item s weight The total weight of the item in pounds Output Variables e Rocket Center of Gravity The center of gravity of the rocket in inches as measured from the tip of the nosecone This is usually the way the center of pressure is referenced SO you can compare the center of gravity and center of pressure directly for your rocket and see if it is stable e Lift off weight The total weight of your rocket in pounds with the all parts installed including the motor with propellant Calculation of Heat Transfer Parameters and Motor Structural Strength We have included on the CD disk two spreadsheets which are compatible with Lotus 123 Version 2 Mic
15. ness to get the total material thickness This may sound a little complicated but its not really When you enter the number of nodes and node thickness click on the thickness button The program will show you the material thickness You can adjust the number of nodes and their thickness until you obtain the desired thickness of the material How To Make Amateur Rockets Software Manual e Material Properties You will have to enter the material properties for each material of your thermal cut Material number 1 is the surface material material 2 is the next material down and material 3 is the last material of the cut You only have to enter the material properties for materials in the thermal cut For example if you only have one material you would only enter property data for the Ist material You can leave the default numbers for the 2nd and 3rd materials alone e Thermal Loading In the thermal loading frame you must enter the gas temperature and heat transfer coefficient at the material surface as a function of time The first time point must be zero and there must be at least two time points The time points must be in sequence and ascending order Make sure the last time point exceeds the Final Time in the General Parameters frame It is important to click on the last time point button corresponding to your last entry in the thermal loading table This enables the software to know which is the last time point in the table You can calcula
16. ockets Software Manual Appendix A CE Phenolic Ablation Data The following graphs can also be used to estimate CE Phenolic throat erosion in AN propellant rocket motors Simply find your initial throat diameter and average chamber pressure and read off the average throat erosion in mils per second This information can then be used in FPRED to predict the chamber pressure and thrust as a function of time 16 Erosion Rate Mi ls Second How To Make Amateur Rockets Software Manual CE Phenolic Throat Erosion AN Propel lant Formulation BS Poon 20 My 20 cet pat ote leno be abe slee ba ape hon bei Ak Jee S OB 120 I Sel 2a ANON go n AO Sc S20 Beh Bei Throat Diameter Inches Erosion Rate Mi ls Second How To Make Amateur Rockets Software Manual CE Phenolic Throat Erosion AN Propel lant Formulation BS PORN GIS My 20 Maan 0 0 DEI DL O33 0 4 1 0 Throat po e eee How To Make Amateur Rockets Software Manual Trouble Shooting Plot Output Trouble Shooting Plots Will Not Print or Appear On Screen To fix this copy the program on your CD labeled gs_oem32 exe to the main directory on your hard drive Then execute the program using the Start and Run buttons from Windows Once gs oem32 exe is running select the default options at the prompts No plot output Make sure you hit the calculate button before the plot button The software must calculate values first
17. of the specific impuke The next thing to enter is the propellant ingredients ID numbers and their corresponding weight percentages The ID numbers for a variety of propellant ingredients can be found by clicking on the ID Numbers button in the program You are allowed a maximum of six propellant ingredients Enter the ID numbers without decimal points Enter the weight percentages with decimal points The weight percentages should add up to 100 Enter the number of propellant ingredients without a decimal point How To Make Amateur Rockets Software Manual When you have entered all the numbers click on the calculate button CHEM II will setup the input and run it on a modified version of the Navy s Propellant Evaluation Program or PEP in the background The Calculation Progress Message Box will indicate the calculation is in progress It will take about 10 seconds to obtain results They will be displayed in the CHEM II window and can be printed out or another case can be run You can click on the detailed output button for more output information Chemical ID Numbers For CHEM II The chemical ID numbers used in CHEM II are listed given in the PDF file Chemical ID Numbers PDF or in the text file Idnum txt on the software CD The easiest way to get an ID number for a chemical is to click on the button ID Numbers button while running CHEM II The list of chemicals and ID numbers will appear on the screen Atmospheric Pressure
18. r rocket before you have built it The software programs Aerolab and CP1 will help you estimate the center of pressure of your rocket and with the center of gravity calculator you will be able to determine if the center of pressure is aft of the center of gravity for a stable flight The center of gravity calculator will also estimate the lift off weight of your rocket so you will have some idea of what thrust level to shoot for in designing your rocket motor Input Variables e Nosecone weight Total weight of nosecone in pounds e Nosecone total length The length of the nosecone from tip to its base in inches e Nosecone length outside body Nosecone length from tip of nosecone to the beginning of the body tube when the nosecone is installed on the body tube in inches Body tube weight Total weight of body tube in pounds Body tube length Total length of the body tube in inches Motor weight Total weight of the rocket motor with propellant in pounds Motor length Total length of the rocket motor from the bulkhead to the nozzle end in inches e Number of fins Total number of fins on rocket e Wi of one fin The weight of one fin in pounds e Fin root The length of the fin that is attached to the rocket body in inches e Distance from aft end of body tube This is the distance from the aft end of the body tube to the trailing edge of the fin attached to the body tube Usually this number is zero 13 How To Make A
19. rosoft Excel and MS Works Works is now loaded on most computers and you can load these spreadsheets directly to simplify your calculations The Lotus 123 files can be read by many other spreadsheet programs if you do not have MS Works These spreadsheets let the computer do the calculations for you Copy the appropriate files to your hard drive and work with them there The heat transfer file is called HTBOUND and the motor structural strength file is called STRESS 14 How To Make Amateur Rockets Software Manual Freeware Software The following software is freeware and may be distributed as you wish All remaining software on the CD is copyrighted by CP Technologies and is for your own use only and may not be copied and given to others Freeware 1 Nosecones xls 2 Pat zip 3 Propellant exe 4 MotorTut 5 Aerolab Users Manual For The CP Technologies Software The users manual for the software is on the included CD in Adobe Acrobat PDF format If you do not have the Adobe Acrobat Reader you can download it for free from the following site www adobe com products acrobat readstep2 html You can also install the Adobe Acrobat Reader from the included CD if you do not have access to the Internet Copy file AR32E301 exe to your hard drive and execute the program It will install Acrobat Reader 3 0 on your computer The current version of Acrobat Reader can be found on the above web site 15 How To Make Amateur R
20. te take the total erosion at the last time point and divide it by the time point values For example suppose your throat cuts shows a total erosion of 0 08 inches at the last time point of 6 seconds Then the average erosion rate would be 0 08 inches divided by 6 seconds to yield 0 013 inches second To convert this into mils second for inputting to FPRED multiply it by 1000 to yield 13 mils second You will also see a table of material number node number depth and temperature This is the temperature profile through your thermal cut at the print output time increment If you have more than one material you will notice that there is a O material node between each material layer this 0 node represents the interface between the materials The output will periodically print Gradient has been eliminated which means that a complete node as been eroded away When the new exposed node reaches its melting or ablation point the output will print Reaches melting point The message will also indicate the time at which these events occurred during the motor burn CP1 This program calculates the static and dynamic center of pressure on your rocket On your screen you will see a drawing of a generic rocket Simply put in the dimensions of your rocket at the appropriate locations on the drawing Click on whether it is 3 or 4 fins and click on the type of nosecone Then click on the Calculate CP button The static and dynamic center of pressures will then
21. te the gas temperature and heat transfer coefficients based on the equations in the How To Make Amateur Rockets book e Aerodynamic Heating You can calculate the temperatures on your rocket body and nosecone by clicking on the Tools button and then click on the Aerodynam k heating option All input is the same as for rocket ablation except you now input the distance from the nosetip where you are making your thermal analysis cut Instead of gas temperature and heat transfer coefficient you now enter velocity and altitude as a function of time Please note the distance from the nosetip cannot be zero and the initial velocity cannot be zero Input a value of 0 1 to simulate zero in these cases When the input numbers are satisfactory for your case click on the calculate button The Calculation Status Indicator will indicate the calculation is in progress It will take about 15 seconds to obtain results They will be displayed in a window on your screen You can view your output or print it out When done viewing the output simply close its window This will return you to the THERM input screen You can run another case or quit by closing the THERM window 10 How To Make Amateur Rockets Software Manual Output Variables At each time point the total amount of ablation will be printed Note that if you are calculating a throat erosion this will be the radial throat erosion and not an erosion rate To get the average erosion ra
22. u are using the segmented grain option this would be the length of an individual segment or cartridge For an end burner this is the length of propellant e Neutral Length Clicking on this button will give the propellant grain length for a neutral chamber pressure time curve assuming there is no throat erosion e Ignition Time This is the time it takes from the moment the propellant grain is lit to the time the entire propellant surface is completely burning This is usually on the order of one second or less e Number of Cartridges If the grain pattern is segmented enter the number of segments or cartridges e C Slot Width If the grain pattern is a C Slot enter the width of the slot e C Slot Depth If the grain pattern is a C Slot enter the depth of the slot This is the distance from the propellant outer radius to the point where the slot ends e Moon Burner Offset If the grain pattern is a moon burner enter the distance from the bore centerline to the outer diameter of the propellant grain This distance should be less than half the diameter of the propellant e Thrust Curve Click on the top of the screen the Thrust Curve option to save the calculated thrust time curve for use by FLIGHT e Calculate Click on this button for FPRED to calculate the performance of your motor based on the input parameters How To Make Amateur Rockets Software Manual In the grain geometry frame select the grain pattern you want to run
23. ut or saved as metafiles or bitmaps If the plots are saved you can modify them and or included them in word processing documents You can also change the number of ticks per second on your plots Just enter the number you want in the box Ticks Sec to get the desired plot appearance It is recommended that you run FLIGHT without printing the output until you have a trajectory you are satisfied with Then click on the printout option and click on the calculate trajectory button The portion of the thrust time curve after propellant burnout is not printed out When you change input numbers you must click on the calculate trajectory button to see the results of the input changes Graphs do not automatically update so you also have to replot by clicking on the Plot button to see the new results FPRED The program FPRED is used to calculate the ballistic performance of your rocket motor It calculates chamber pressure and thrust for segmented BATES grains end burners core burners C Slot burners and moon burners The chamber pressure is calculated using the instantaneous stagnation pressure equation This equation neglects gas storage in the chamber How To Make Amateur Rockets Software Manual and is simply based on the instantaneous burn area of the propellant However it does estimate the blowdown of the chamber pressure based on a chamber volume estimated by the propellant volume FPRED takes into account throat erosion and erosive burnin
24. vs Ground Level Tabk 1 Altitude Ft Pressure psia 0 14 696 1000 14 175 2000 13 664 3000 13 168 4000 12 692 5000 12 225 6000 11 778 7000 11 341 8000 10 914 9000 10 501 10000 10 108 Output Variables The output variables are maximum propellant density chamber temperature combustion gas gamma and molecular weight specific impulse and C star Most of these values are required 2 How To Make Amateur Rockets Software Manual to run FPRED For the specific impulse you will note that there are two values frozen equilibrium and shifting equilibrium Frozen means that the chemical reactions are frozen as the gas goes through the nozzle Shifting means the chemical reactions can still take place through the nozzle I recommend using frozen equilibrium results as it more accurately reflects motor conditions You should also note that the propellant density is the maximum possible assuming no wasted space between particles Your actual density will probably be about 0 9 times the maximum density value For those wanting more output information click on the View Full Output button You can view the full output on your screen or print it out Close the output window to go back to the CHEM II input screen FLIGHT This program is used to calculate the trajectory of your rocket It is a 2D trajectory program for estimating the altitude and distance downrange for the flight of a single stage rocket The program integrates the for
25. will be somewhere in between the two options However if you have a good strong motor the difference in results between the two options will be small Zero Angle of Attack The pitch angle of the rocket will be free to change when it leaves the rod After the rocket leaves the rod the pitch angle will be set so that the rocket is always pointed in the same direction of travel or zero angle of attack to the air flow Fixed The pitch angle of the rocket is fixed at the launch rod angle for the entire flight Although the pitch angle is fixed for purposes of calculating aerodynamic forces drag compression dynamic pressure the cross sectional area of the rocket is used instead of the windward surface area e Name of Rocket Insert the name of your rocket e Total Motor Weight The total weight of the motor at lift off including the weight of the propellant e Propellant Weight Weight of propellant in motor at lift off e Manual Input of Thrust vs Time In the thrust vs time frame insert a series of points that more or less approximate the thrust time curve of your motor The first point must be time equals zero As you go down the screen filling in the numbers the time points must be in sequence and in ascending order You are allowed up to nine time points Make sure you click on the Manual Input button if you are using this option e File Input of Thrust vs Time You can read in a thrust vs time curve file generated by FPR
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