All transits have e=0, i=90

Transit #1:  This has a density like Mars, 2900, but is big.

Ms = 1.00             eclipse depth=0.00132
Mp = 0.100 
Rp = 0.3535
a  = 0.0600           =8.98e9 m   T = 1134 K

Transit #2: This is a big Jupiter, density = 2000
M = 0.65            
Mp = 10.0             eclipse depth=0.0962 
Rp = 2.063
a  = 2.0              =2.992e11    T = 126 K

Transit #3: This is suppose to be a Hot Jupiter, density = 1400

Ms = 1.10             eclipse depth=0.0181
Mp = 3.00 Mj 
Rp = 1.42 
a  = 0.05 AU          =7.48e9      T = 1367 K

Transit #4: This is suppose to an exo-Earth, density = 5514

Ms = 1.00             eclipse depth=0.0000877
Mp = 0.00314
Rp = 0.091099
a  = 1.000            = 1.496e11   T = 276 K

Transit #5:   Super-Earth (2x), density = 5000
        
Ms = 0.8              eclipse depth=0.000226
Mp = 0.00629
Rp = 0.1186
a  = 0.500            = 7.480e10  T = 312 K

Transit #6:  This is suppose to be Neptune-ish density = 1200 and cold

Ms = 1.0              elipse depth=0.00505
Mp = 0.2986
Rj = 0.691
a  = 2.0              = 2.992e11   T = 195 K

Transit #7:  Density = 1100 and warm. Water planet?

Ms = 0.70              elipse depth = 0.000264
Mp = 0.0012 
Rj = 0.113
a  = 0.7              = 1.047e11   T = 229 K

Transit #8: Density = 6000 kg/m3, a warm Cnthonian?

Ms = 0.50              eclipse depth = 0.00153
Mp = 0.03147 
Rj = 0.1908
a  = 0.0600           = 8.976e9    T= 554 K