matlab ejercicio paralelepipedo

UNIVERSIDAD DE GUAYAQUIL FACULTAD DE INGENIERIA INDUSTRIAL CARRERA DE INGENIERIA INDUSTRIAL METODOS NUMERICOS I ING. EDI

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Author / Uploaded
Lili Beth

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UNIVERSIDAD DE GUAYAQUIL FACULTAD DE INGENIERIA INDUSTRIAL CARRERA DE INGENIERIA INDUSTRIAL METODOS NUMERICOS I ING. EDIN GARCES COCA

MATLAB PARALELEPIPEDO DE UNA MAQUINA DE SOLDAR 385 INDURA

NOMBRE: JENNIFFER LILIBETH CHACHO CAJAMARCA GRUPO: 2

>> N= {'1';'2';'3';'4'}; >> masa= [3400;3300;3500;3405;3399;3500;3408;3448;3496;3565]; >> largo= [48.3;48.0;48.2;48.2;47.9;48.4;48.3;48.1;48.5;48.5]; >> ancho= [23.4;23.8;23.2;23.1;23.0;23.6;23.3;23.5;23.4;23.4]; >> altura= [43.2;43.0;43.1;43.2;42.9;42.8;43.4;43.2;43.5;43.3]; >> T= table(masa,largo,ancho,altura)

T=

masa largo ancho altura ____ _____ _____ ______

3400 48.3 3300

48

23.4 23.8

43.2 43

3500 48.2

23.2

43.1

3405 48.2

23.1

43.2

3399 47.9

23

3500 48.4

23.6

42.8

3408 48.3

23.3

43.4

3448 48.1

23.5

43.2

3496 48.5

23.4

43.5

3565 48.5

23.4

43.3

42.9

>> N= {'1';'2';'3';'4'}; >> SM= [sum(masa)]; >> SL= [sum(largo)]; >> SA= [sum(ancho)]; >> SH= [sum(altura)]; >> T= table(SM,SL,SA,SH)

T=

SM

SL

SA

SH

_____ _____ _____ _____

34421 482.4 233.7 431.6

>> N= {'1';'2';'3';'4'}; >> PM= [SM/10]; >> PL= [SL/10]; >> PA= [SA/10]; >> PH= [SH/10]; >> T= table(PM,PL,PA,PH)

T=

PM

PL

PA

PH

______ _____ _____ _____

3442.1 48.24 23.37 43.16

>> N= {'1';'2';'3';'4'}; >> AM= [abs(PM-masa)]; >> AL= [abs(PM-largo)]; >> AA= [abs(PA-ancho)]; >> AH= [abs(PH-altura)]; >> T= table(AM,AL,AA,AH)

T=

AM

AL

AA

AH

_____ ______ ____ ____

42.1 3393.8 0.03 0.04 142.1 3394.1 0.43 0.16 57.9 3393.9 0.17 0.06 37.1 3393.9 0.27 0.04 43.1 3394.2 0.37 0.26 57.9 3393.7 0.23 0.36 34.1 3393.8 0.07 0.24 5.9

3394 0.13 0.04

53.9 3393.6 0.03 0.34 122.9 3393.6 0.03 0.14

>> N= {'1';'2';'3';'4'}; >> SAM= [sum(AM)]; >> SAL= [sum(AL)]; >> SAA= [sum(AA)]; >> SAH= [sum(AH)]; >> T= table(SAM,SAL,SAA,SAH)

T=

SAM

SAL

SAA

SAH

___ _____ ____ ____

597 33939 1.76 1.68

>> N= {'1';'2';'3';'4'}; >> PSAM= [SAM/10]; >> PSAL= [SAL/10]; >> PSAA= [SAA/10]; >> PSAH= [SAH/10];

>> T= table(PSAM,PSAL,PSAA,PSAH)

T=

PSAM

PSAL

PSAA

PSAH

____ ______ _____ _____

59.7 3393.9 0.176 0.168

>> N= {'1';'2';'3';'4'}; >> EPM= [(PSAM/PM)*100]; >> EPL= [(PSAL/PL)*100]; >> EPA= [(PSAA/PA)*100]; >> EPH= [(PSAH/PH)*100]; >> T= table(EPM,EPL,EPA,EPH)

T=

EPM

EPL

EPA

EPH

______ ______ ______ _______

1.7344 7035.4 0.7531 0.38925

>> >> V= PL*PH*PA

V=

4.8657e+04

>> dV= (PSAM/PM)-(PSAA/PA)-(PSAH/PH)

dV =

0.0059

>> DV= dV*V

DV =

288.0775

>> EPV= [(DV/V)*100]

EPV =

0.5921

>> D= PM/V

D=

0.0707

>> dD= (PSAM/PA)-(DV/V)

dD =

2.5486

>> DD= dD*D

DD =

0.1803

>> EPD= [(DD/D)*100]

EPD =

254.8637

>> EPD= [(dD/D)*100]

EPD =

3.6027e+03