Matlab和力学（主要是物理）_Matlab_Physics_Simulink

Matlab和力学（主要是物理）

matlab

Matlab和力学（主要是物理）,matlab,physics,simulink,Matlab,Physics,Simulink,我想解决一个关于两轴动量的力学问题。我以前从未上过力学a级，所以我不知道如何解决这个问题鉴于：方程式： • J1*dw1/dt + Td(w12)+Ts(phi12) = T1; • J2*dw2/dt - Td(w12) -Ts(phi12) = T2; where w1 = dphi1/dt, w2 = dphi2/dt, phi12 = phi1 - phi2 w12 = w1 - w2 Td(w12) = c12 * w12 Ts(phi1

我想解决一个关于两轴动量的力学问题。我以前从未上过力学a级，所以我不知道如何解决这个问题

鉴于：方程式：

• J1*dw1/dt + Td(w12)+Ts(phi12) = T1;
• J2*dw2/dt - Td(w12) -Ts(phi12) = T2;
where w1 = dphi1/dt, 
    w2 = dphi2/dt, 
    phi12 = phi1 - phi2
    w12 = w1 - w2
    Td(w12) = c12 * w12
    Ts(phi12) = ks * phi12
c12 and ks are some coefficients
• dphi12/dt = w12
• dw12/dt = T1/J1 - T2/J2 - Td(w12)/Jeq - Ts(phi12)/Jeq

ccr = 2*Jeq*wn
wn = sqrt(ks/Jeq)
Jeq = (J1*J2)/(J1+J2)
T1(t) = T0*1(t), T0 = 1 T2(t) = 0
J1+J2 = 10 wn = 100 rad/s c12 = 0 Ts(phi12) = ks*phi12

目标是绘制函数

Tsmax/T0=f（J1/（J1+J2））

任何指导都将不胜感激

我试着在simulink中解这个方程，下面是我到目前为止所做的

我的matlab代码

T0 = 1;
T2 = 0;
J1 = 5;
J2 = 10-J1;
wn=100;
Jeq=J1.*J2/(J1+J2);
ckr = 2.*Jeq*wn;
ks = (wn^2)*Jeq;
c12=0;
J1s = 1;
length(J1)
a2 = 0 :J1;

for c=1:J1
    J1s = a2(c);
    sim('model');
    a = J1s/(J1s+J2);
    plot(Ts,a)
    hold all
end
grid on

这真的没有达到预期的效果。

据我所知，曲线应该类似于f（x）=-1x+b。

我认为问题在于，在每次迭代中，您都没有重新计算

J2

和

Jeq

。现在，您的模型通过

J1

、

J2

和

Jz

进行参数化，因此这些是您需要在每次迭代中更新的值。比如：

a2 = 0:J1; % do you really want 0 inertia?
Tsmax = zeros(size(a2));

for ii=1:length(a2)
    J1 = a2(ii); % Using J1 as model is parameterised with J1;
    J2 = 10 - J1; % New value of J2
    Jz = J1*J2/(J1+J2); % New value of Jz
    sim('model'); % ks and c12 do not change with each iteration
    Tsmax(ii) = max(Ts); % get max value of Ts        
end

% Plot Tsmax as a function of Jeq
Jeq = (a2.*(10-a2))/10;
plot(Jeq,Tsmax)
grid on

请检查我的第二个问题。提前谢谢。