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Prueba-Torque.docxPrueba Torque
Código MCU
Código MCU
import math
r = 0
v = 0
w = 0
t = 0
ac = 0
aa = 0
ru = "m"
tu = "s"
vu= "m/s"
wu = "rad/s"
acu = "m/s^2"
aau = "rad/s^2"
r = int(input("inserta el radio en metros si no hay pon 0: "))
t = int(input("inserta el tirmpo en segundos si no hay pon 0: "))
v = int(input("inserta la velocidad en metros por segundos si no hay pon 0: "))
w = int(input("inserta la velocidad angular en radianes por segundos, si no hay pon 0: "))
if(r==0)and(t==0):
r = v/w
t = 2*math.pi/w
print("///////////////////////////")
print("r = v/w")
print(f"{str(r)} {ru}")
print("t = 2*math.pi/w")
print(f"{str(t)} {tu}")
print("------------------------")
elif(v==0)and(w==0):
v = 2*math.pi*r/t
w =2*math.pi/t
print("///////////////////////////")
print("v = (2*math.pi*r)/t")
print(f"{str(v)} {vu}")
print("w = 2*math.pi/t")
print(f"{str(w)} {wu}")
print("------------------------")
elif(r==0)and(w==0):
r = (v*t)/(2*math.pi)
w = 2*math.pi/t
print("///////////////////////////")
print("r = (v*t)/(2*math.pi)")
print(f"{str(r)} {ru}")
print("w = 2*math.pi/t")
print(f"{str(w)} {wu}")
print("------------------------")
elif(t==0)and(v==0):
t = 2*math.pi/w
v = w*r
print("///////////////////////////")
print("t = 2*math.pi/w")
print(f"{str(t)} {tu}")
print("v = w*r")
print(f"{str(v)} {vu}")
print("------------------------")
elif(r==0)and(v==0):
print("faltan datos")
elif(t==0)and(w==0):
t = (2*math.pi*r)/v
w = v/r
print("///////////////////////////")
print("t = (2*math.pi*r)/v")
print(f"{str(t)} {tu}")
print("w = v/r")
print(f"{str(w)} {wu}")
print("------------------------")
if(r>0)and(v>0):
ac = (v*v)/r
aa = w/t
print("ac = (v^2)/r")
print(f"{str(ac)}{acu}")
print("aa = w/t")
print(f"{str(aa)}{aau}")
print("///////////////////////////")
Código de torque
Código de torque
from math import asin
from math import sin
from math import radians
from math import degrees
from math import pi
#━━━━━━ ◦ ❖ ◦ ━━━━━━
a = 0
r = 0
f = 0
t = 0
a1 = 0
r1 = 0
f1 = 0
t1 = 0
a2 = 0
r2 = 0
f2 = 0
t2 = 0
a3 = 0
r3 = 0
f3 = 0
t3 = 0
a4 = 0
r4 = 0
f4 = 0
t4 = 0
#━━━━━━ ◦ ❖ ◦ ━━━━━━}
au = "°"
ru = "m"
tu = "NM"
fu = "N"
vu= "m/s"
wu = "rad/s"
acu = "m/s^2"
af = "sin(a) = t/(f*r)"
rf = "r = t/(f*sin(ang)"
ff = "f = t/(r*sin(ang)"
tf = "t = r*f*sin(ang)"
#━━━━━━ ◦ ❖ ◦ ━━━━━━
res = input("cual es tu incognita?a/r/f/t \n")
if res == "t":
#━━━━━━ ◦ ❖ ◦ ━━━━━━
a1 = float(input("pon el angulo de el torque \n"))
r1 = float(input("pon el radio de el torque \n"))
f1 = float(input("pon la fuerza de el torque \n"))
t1 = r1*f1*sin(radians(a1))
res = input("hay otra fuerza afectando?s/n \n")
if res == "s":
a2 = float(input("pon el angulo de el torque \n"))
r2 = float(input("pon el radio de el torque \n"))
f2 = float(input("pon la fuerza de el torque \n"))
t2 = r2*f2*sin(radians(a2))
res = input("hay otra fuerza afectando?s/n \n")
if res == "s":
a3 = float(input("pon el angulo de el torque \n"))
r3 = float(input("pon el radio de el torque \n"))
f3 = float(input("pon la fuerza de el torque \n"))
t3 = r3*f3*sin(radians(a3))
res = input("hay otra fuerza afectando?s/n \n")
if res == "s":
a4 = float(input("pon el angulo de el torque \n"))
r4 = float(input("pon el radio de el torque \n"))
f4 = float(input("pon la fuerza de el torque \n"))
t4 = r4*f4*sin(radians(a4))
t = t1+t2+t3+t4
print(f"seno1 = {str(sin(radians(a1)))}")
print(f"seno2 = {str(sin(radians(a2)))}")
print(f"seno3 = {str(sin(radians(a3)))}")
print(f"seno4 = {str(sin(radians(a4)))}")
print(f"t1 = {str(r1)}*{str(f1)}*{str(sin(radians(a1)))}")
print(f"t1 = {str(t1)} {tu}")
print(f"t2 = {str(r2)}*{str(f2)}*{str(sin(radians(a2)))}")
print(f"t2 = {str(t2)} {tu}")
print(f"t3 = {str(r3)}*{str(f3)}*{str(sin(radians(a3)))}")
print(f"t3 = {str(t3)} {tu}")
print(f"t4 = {str(r4)}*{str(f4)}*{str(sin(radians(a4)))}")
print(f"t4 = {str(t4)} {tu}")
print(f"t Total = {str(t)} {tu}")
else:
t = t1+t2+t3
print(tf)
print(f"seno1 = {str(sin(radians(a1)))}")
print(f"seno2 = {str(sin(radians(a2)))}")
print(f"seno3 = {str(sin(radians(a3)))}")
print(f"t1 = {str(r1)}*{str(f1)}*{str(sin(radians(a1)))}")
print(f"t1 = {str(t1)} {tu}")
print(f"t2 = {str(r2)}*{str(f2)}*{str(sin(radians(a2)))}")
print(f"t2 = {str(t2)} {tu}")
print(f"t3 = {str(r3)}*{str(f3)}*{str(sin(radians(a3)))}")
print(f"t3 = {str(t3)} {tu}")
print(f"t Total = {str(t)} {tu}")
else:
t = t1+t2
print(tf)
print(f"seno1 = {str(sin(radians(a1)))}")
print(f"seno2 = {str(sin(radians(a2)))}")
print(f"t1 = {str(r1)}*{str(f1)}*{str(sin(radians(a1)))}")
print(f"t1 = {str(t1)} {tu}")
print(f"t2 = {str(r2)}*{str(f2)}*{str(sin(radians(a2)))}")
print(f"t2 = {str(t2)} {tu}")
print(f"t Total = {str(t)} {tu}")
else:
print(tf)
print(f"seno = {str(sin(radians(a1)))}")
print(f"t = {str(r1)}*{str(f1)}*{str(sin(radians(a1)))}")
print(f"t = {str(t1)} {tu}")
print(pi)
#━━━━━━ ◦ ❖ ◦ ━━━━━━
elif res == "f":
a1 = float(input("pon el angulo de el torque \n"))
r1 = float(input("pon el radio de el torque \n"))
t1 = float(input("pon el torque \n"))
f1 = t1/(r1*sin(radians(a1)))
print(ff)
print(f"seno = {str(sin(radians(a1)))}")
print(f"Fuerza = {str(f1)} {fu}")
elif res == "r":
a1 = float(input("pon el angulo de el torque \n"))
t1 = float(input("pon el torque \n"))
f1 = float(input("pon la fuerza de el torque \n"))
r1 = t1/(f1*sin(radians(a1)))
print(rf)
print(f"Radio = {str(r1)} {ru}")
elif res == "a":
r1 = float(input("pon el radio de el torque \n"))
t1 = float(input("pon el torque \n"))
f1 = float(input("pon la fuerza de el torque \n"))
a1 = t1/(f1*r1)
print(af)
print (f"Angulo = {str(degrees(asin(a1)))} Seno = {str(a1)}")
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