Summations of priorities of objectives that need to be maximized (Millitary planes) Calculator

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✖Performance Priority (%) is a factor which shows the priority of performance objective on a percentage scale. It is oriented according to the user's definition of priorities.ⓘ Performance Priority (%) [P_p]			+10% -10%
✖Flight Quality Priority (%) is a factor which shows the priority of Quality of Flight objective on a percentage scale. It is oriented according to the user's definition of priorities.ⓘ Flight Quality Priority (%) [P_f]			+10% -10%
✖Scariness Priority (%) is a factor which shows the priority of appearance objective on a percentage scale. It is oriented according to the user's definition of priorities.ⓘ Scariness Priority (%) [P_b]			+10% -10%
✖Maintainability Priority (%) is a factor which shows the priority of Maintainability objective on a percentage scale. It is oriented according to the user's definition of priorities.ⓘ Maintainability Priority (%) [P_m]			+10% -10%
✖Producibility Priority (%) is a factor which shows the priority of Producibility Priority (%) objective on a percentage scale. It is oriented according to the user's definition of priorities.ⓘ Producibility Priority (%) [P_r]			+10% -10%
✖Disposability Priority (%) is a factor which shows the priority of Disposability Priority objective on a percentage scale. It is oriented according to the user's definition of priorities.ⓘ Disposability Priority (%) [P_d]			+10% -10%
✖Stealth Priority (%) is a factor which shows the priority of Stealth objective on a percentage scale. It is oriented according to the user's definition of priorities.ⓘ Stealth Priority (%) [P_s]			+10% -10%

✖Priority Sum of objectives to be maximized (%) is sum of all priority of objectives in all type of aircrafts mostly Flight quality, Performance, Stealth factors, etc. Taken in percentage.ⓘ Summations of priorities of objectives that need to be maximized (Millitary planes) [P_max]

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Summations of priorities of objectives that need to be maximized (Millitary planes)

Formula

`"P"_{"max"} = "P"_{"p"}+"P"_{"f"}+"P"_{"b"}+"P"_{"m"}+"P"_{"r"}+"P"_{"d"}+"P"_{"s"}`

Example

`"76"="11"+"14"+"10.5"+"6"+"13"+"12"+"9.5"`

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Summations of priorities of objectives that need to be maximized (Millitary planes) Solution

STEP 0: Pre-Calculation Summary

Formula Used

Priority Sum of objectives to be maximized (%) = Performance Priority (%)+Flight Quality Priority (%)+Scariness Priority (%)+Maintainability Priority (%)+Producibility Priority (%)+Disposability Priority (%)+Stealth Priority (%)
P_max = P_p+P_f+P_b+P_m+P_r+P_d+P_s
This formula uses 8 Variables

Variables Used

Priority Sum of objectives to be maximized (%) - Priority Sum of objectives to be maximized (%) is sum of all priority of objectives in all type of aircrafts mostly Flight quality, Performance, Stealth factors, etc. Taken in percentage.
Performance Priority (%) - Performance Priority (%) is a factor which shows the priority of performance objective on a percentage scale. It is oriented according to the user's definition of priorities.
Flight Quality Priority (%) - Flight Quality Priority (%) is a factor which shows the priority of Quality of Flight objective on a percentage scale. It is oriented according to the user's definition of priorities.
Scariness Priority (%) - Scariness Priority (%) is a factor which shows the priority of appearance objective on a percentage scale. It is oriented according to the user's definition of priorities.
Maintainability Priority (%) - Maintainability Priority (%) is a factor which shows the priority of Maintainability objective on a percentage scale. It is oriented according to the user's definition of priorities.
Producibility Priority (%) - Producibility Priority (%) is a factor which shows the priority of Producibility Priority (%) objective on a percentage scale. It is oriented according to the user's definition of priorities.
Disposability Priority (%) - Disposability Priority (%) is a factor which shows the priority of Disposability Priority objective on a percentage scale. It is oriented according to the user's definition of priorities.
Stealth Priority (%) - Stealth Priority (%) is a factor which shows the priority of Stealth objective on a percentage scale. It is oriented according to the user's definition of priorities.

STEP 1: Convert Input(s) to Base Unit

Performance Priority (%): 11 --> No Conversion Required
Flight Quality Priority (%): 14 --> No Conversion Required
Scariness Priority (%): 10.5 --> No Conversion Required
Maintainability Priority (%): 6 --> No Conversion Required
Producibility Priority (%): 13 --> No Conversion Required
Disposability Priority (%): 12 --> No Conversion Required
Stealth Priority (%): 9.5 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

P_max = P_p+P_f+P_b+P_m+P_r+P_d+P_s --> 11+14+10.5+6+13+12+9.5

Evaluating ... ...

P_max = 76

STEP 3: Convert Result to Output's Unit

76 --> No Conversion Required

FINAL ANSWER

76 <-- Priority Sum of objectives to be maximized (%)

(Calculation completed in 00.020 seconds)

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< 19 Design Process Calculators

Thrust-to-Weight ratio given vertical velocity

Go Thrust-to-weight ratio = ((Vertical Airspeed/Aircraft Velocity)+ ((Dynamic Pressure/Wing Loading)* (Minimum Drag Coefficient))+ ((Lift Induced Drag Constant /Dynamic Pressure)* (Wing Loading)))

Summations of priorities of objectives that need to be maximized (Millitary planes)

Go Priority Sum of objectives to be maximized (%) = Performance Priority (%)+Flight Quality Priority (%)+Scariness Priority (%)+Maintainability Priority (%)+Producibility Priority (%)+Disposability Priority (%)+Stealth Priority (%)

Priority of objective weight in design process given minimum design index

Go Weight Priority (%) = ((Minimum Design Index*100)-(Cost Index*Cost Priority (%))-(Period Index*Period Priority (%)))/Weight Index

Priority of objective cost in design process given minimum design index

Go Cost Priority (%) = ((Minimum Design Index*100)-(Weight Index*Weight Priority (%))-(Period Index*Period Priority (%)))/Cost Index

Priority of objective period of design given minimum design index

Go Period Priority (%) = ((Minimum Design Index*100)-(Weight Index*Weight Priority (%))-(Cost Index*Cost Priority (%)))/Period Index

Period of Design Index given Minimum Design Index

Go Period Index = ((Minimum Design Index*100)-(Weight Index*Weight Priority (%))-(Cost Index*Cost Priority (%)))/Period Priority (%)

Weight Index given Minimum Design Index

Go Weight Index = ((Minimum Design Index*100)-(Cost Index*Cost Priority (%))-(Period Index*Period Priority (%)))/Weight Priority (%)

Cost Index given Minimum Design Index

Go Cost Index = ((Minimum Design Index*100)-(Weight Index*Weight Priority (%))-(Period Index*Period Priority (%)))/Cost Priority (%)

Minimum design index

Go Minimum Design Index = ((Cost Index*Cost Priority (%))+(Weight Index*Weight Priority (%))+(Period Index*Period Priority (%)))/100

Battery Weight Fraction

Go Battery Weight Fraction = (Range of Aircraft/(Battery Specific Energy Capacity*3600* Efficiency*(1/[g])* Maximum Lift to Drag ratio of Aircraft))

Summation of priorities of all objectives that need to be minimized

Go Priority Sum of objectives to be minimized(%) = Cost Priority (%)+Weight Priority (%)+Period Priority (%)

Electric Power for Wind Turbine

Go Electric Power of Wind Turbine = Shaft Power*Efficiency of Generator*Efficiency of Transmission

Propulsion Net Thrust

Go Thrust force = Air Mass Flow Rate*(Velocity of Jet-Flight Velocity)

Maximum payload capability

Go Payload = Maximum take off weight-Operating empty weight-Fuel load

Induced Inflow Ratio in Hover

Go Inflow Ratio = Induced Velocity/(Rotor Radius*Angular Velocity)

Range increment of aircraft

Go Range increment of aircraft = Design range-Harmonic range

Mission fuel

Go Mission fuel = Fuel load-Reserve fuel

Reserve fuel

Go Reserve fuel = Fuel load-Mission fuel

Fuel load

Go Fuel load = Mission fuel+Reserve fuel

Summations of priorities of objectives that need to be maximized (Millitary planes) Formula

What are Priorities to be Maximized?

The Summation of the priorities of all objectives that need to be maximized formula is defined as the summation of the Priority Percentages that need to be maximized in the model of aircraft concept.
Considerably for military application, which contains appearance/scariness characteristics, higher disposability, and Stealth characteristics.

How to Calculate Summations of priorities of objectives that need to be maximized (Millitary planes)?

Summations of priorities of objectives that need to be maximized (Millitary planes) calculator uses Priority Sum of objectives to be maximized (%) = Performance Priority (%)+Flight Quality Priority (%)+Scariness Priority (%)+Maintainability Priority (%)+Producibility Priority (%)+Disposability Priority (%)+Stealth Priority (%) to calculate the Priority Sum of objectives to be maximized (%), Summations of priorities of objectives that need to be maximized (Millitary planes) formula used to calculate the overall priority of objectives that need to be maximized in military aircraft design, this approach helps prioritize design decisions and resource allocations to ensure that the aircraft meets its operational requirements effectively and efficiently. Priority Sum of objectives to be maximized (%) is denoted by P_max symbol.

How to calculate Summations of priorities of objectives that need to be maximized (Millitary planes) using this online calculator? To use this online calculator for Summations of priorities of objectives that need to be maximized (Millitary planes), enter Performance Priority (%) (P_p), Flight Quality Priority (%) (P_f), Scariness Priority (%) (P_b), Maintainability Priority (%) (P_m), Producibility Priority (%) (P_r), Disposability Priority (%) (P_d) & Stealth Priority (%) (P_s) and hit the calculate button. Here is how the Summations of priorities of objectives that need to be maximized (Millitary planes) calculation can be explained with given input values -> 76 = 11+14+10.5+6+13+12+9.5.

FAQ

What is Summations of priorities of objectives that need to be maximized (Millitary planes)?

Summations of priorities of objectives that need to be maximized (Millitary planes) formula used to calculate the overall priority of objectives that need to be maximized in military aircraft design, this approach helps prioritize design decisions and resource allocations to ensure that the aircraft meets its operational requirements effectively and efficiently and is represented as P_max = P_p+P_f+P_b+P_m+P_r+P_d+P_s or Priority Sum of objectives to be maximized (%) = Performance Priority (%)+Flight Quality Priority (%)+Scariness Priority (%)+Maintainability Priority (%)+Producibility Priority (%)+Disposability Priority (%)+Stealth Priority (%). Performance Priority (%) is a factor which shows the priority of performance objective on a percentage scale. It is oriented according to the user's definition of priorities, Flight Quality Priority (%) is a factor which shows the priority of Quality of Flight objective on a percentage scale. It is oriented according to the user's definition of priorities, Scariness Priority (%) is a factor which shows the priority of appearance objective on a percentage scale. It is oriented according to the user's definition of priorities, Maintainability Priority (%) is a factor which shows the priority of Maintainability objective on a percentage scale. It is oriented according to the user's definition of priorities, Producibility Priority (%) is a factor which shows the priority of Producibility Priority (%) objective on a percentage scale. It is oriented according to the user's definition of priorities, Disposability Priority (%) is a factor which shows the priority of Disposability Priority objective on a percentage scale. It is oriented according to the user's definition of priorities & Stealth Priority (%) is a factor which shows the priority of Stealth objective on a percentage scale. It is oriented according to the user's definition of priorities.

How to calculate Summations of priorities of objectives that need to be maximized (Millitary planes)?

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