1. s2+6s+4/s2+4s+4
2. s2+10s+8/s2+8s+8
3. s2+8s+8/s2+6s+8
4. s2+6s+8/s2+10s+8
s2+6s+4/s2+4s+4
1. 4(s+6)/s2+6s+8
2. 2(s+6)/s2+6s+8
3. 4(s+6)/s2+10s+8
4. 2(s+6)/s2+10s+8
2(s+6)/s2+6s+8
1. (s+1)2/s2+2s+3
2. (s+1)2/s2+3s+1
3. (s+1)/s2+3s+1
4. (s+1)/s2+2s+3
(s+1)2/s2+3s+1
1. Sum of z-parameters of the two networks
2. Sum of h-parameters of the two networks
3. Product oF individual ABCD matrices of the matrices
4. Product of voltage transfer ratios of the two individual networks
Product oF individual ABCD matrices of the matrices
1. s+2/2s2+1
2. (s+1)2/2s2+1
3. (s+1)2/3s2+1
4. (s2+1)/2s2+1
(s2+1)/2s2+1
1. z11z22-z12z21=1
2. AD-BC=1
3. h11h22-h12h21=1
4. y11y22-y12y21=1
h11h22-h12h21=1
1. Symmetric two-port network: AD-BC=1
2. Reciprocal two-port network:z11=z12
3. Inverse hybrid parameter: A, B, C, D
4. Hybrid parameter :(V1, I2)=f(I1, V2)
Hybrid parameter :(V1, I2)=f(I1, V2)
1. s2+2s+2/s2+s+1
2. 2s2+1/s(3s2+2)
3. s2+s+2/s2+2s+2
4. s2+s+2/s2+s+1
2s2+1/s(3s2+2)
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