13.28 Schaum Bomba Centrifuga
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13.28 serie Schaum In[253]:= Clear@"Global`*"D In[254]:= H*valores numericos*L r b = 80, 8, 0<; a= 80, 0, - 3< ; w= 80, 0, 2<; a 0 = 80, 0, 0<; v r = 80, 10, 0<; a rt = 80, 20, 0<; r r = 8- 8, 0, 0<; w r = 80, 0, - 10 8<; aceleración de arrastre In[262]:= a 0 a r b H* a b t *L w Hw r b L H* a b n *L Out[262]= 80, 0, 0< Out[263]= 824, 0, 0< Out[264]= 80, - 32, 0< In[265]:= a b = %%% + %% + % Out[265]= 824, - 32, 0< aceleración de coriolis In[266]:= a c = 2 *w v r H* a c *L Out[266]= 8- 40, 0, 0< aceleración relativa In[267]:= a rt H* a r t *L w r Hw r r r L H* a r n *L Out[267]= 80, 20, 0< Out[268]= : 25 2 ,0,0> In[269]:= a r = %% + % Out[269]= : 25 2 , 20, 0> aceleracion total In[270]:= a b + a c + a r N Out[270]= 8- 3.5, - 12., 0.<
Transcript of 13.28 Schaum Bomba Centrifuga
13.28 serie Schaum
In[253]:= Clear@"Global`∗"D
In[254]:= H∗valores numericos∗Lrb = 80, 8, 0<;
α = 80, 0, −3< ;
ω = 80, 0, 2<;
a0 = 80, 0, 0<;
vr = 80, 10, 0<;
art = 80, 20, 0<;
rr = 8−8, 0, 0<;
ωr = 80, 0, −10 ê 8<;
aceleración de arrastre
In[262]:= a0
α�rb H∗ abt
∗Lω�Hω�rbL H∗ ab
n∗L
Out[262]= 80, 0, 0<
Out[263]= 824, 0, 0<
Out[264]= 80, −32, 0<
In[265]:= ab = %%% + %% + %
Out[265]= 824, −32, 0<
aceleración de coriolis
In[266]:= ac = 2 ∗ ω�vr H∗ ac ∗LOut[266]= 8−40, 0, 0<
aceleración relativa
In[267]:= art H∗ art
∗Lωr �Hωr �rrL H∗ ar
n∗L
Out[267]= 80, 20, 0<
Out[268]= :25
2
, 0, 0>
In[269]:= ar = %% + %
Out[269]= :25
2
, 20, 0>
aceleracion total
In[270]:= ab + ac + ar êê N
Out[270]= 8−3.5, −12., 0.<