MASS PROPERTIES OF THE ASSEMBLY OPTO_COOLING_TUBE_LOWER_ASM VOLUME = 3.8172112e+03 MM^3 SURFACE AREA = 1.8904210e+04 MM^2 AVERAGE DENSITY = 1.8656055e+02 KILOGRAM / MM^3 MASS = 7.1214102e+05 KILOGRAM CENTER OF GRAVITY with respect to _OPTO_COOLING_TUB coordinate frame: X Y Z 0.0000000e+00 -7.7970874e+01 1.8461401e+02 MM INERTIA with respect to _OPTO_COOLING_TUB coordinate frame: (KILOGRAM * MM^2) INERTIA TENSOR: Ixx Ixy Ixz 2.8674874e+10 0.0000000e+00 0.0000000e+00 Iyx Iyy Iyz 0.0000000e+00 3.4458060e+10 1.0261428e+10 Izx Izy Izz 0.0000000e+00 1.0261428e+10 1.4454792e+10 INERTIA at CENTER OF GRAVITY with respect to _OPTO_COOLING_TUB coordinate frame: (KILOGRAM * MM^2) INERTIA TENSOR: Ixx Ixy Ixz 7.4015625e+07 0.0000000e+00 0.0000000e+00 Iyx Iyy Iyz 0.0000000e+00 1.0186633e+10 1.0503247e+07 Izx Izy Izz 0.0000000e+00 1.0503247e+07 1.0125361e+10 PRINCIPAL MOMENTS OF INERTIA: (KILOGRAM * MM^2) I1 I2 I3 7.4015625e+07 1.0123611e+10 1.0188384e+10 ROTATION MATRIX from _OPTO_COOLING_TUB orientation to PRINCIPAL AXES: 1.00000 0.00000 0.00000 0.00000 -0.16439 -0.98640 0.00000 0.98640 -0.16439 ROTATION ANGLES from _OPTO_COOLING_TUB orientation to PRINCIPAL AXES (degrees): angles about x y z 99.462 0.000 0.000 RADII OF GYRATION with respect to PRINCIPAL AXES: R1 R2 R3 1.0194800e+01 1.1922978e+02 1.1961059e+02 MM MASS PROPERTIES OF COMPONENTS OF THE ASSEMBLY (in assembly units and the _OPTO_COOLING_TUB coordinate frame) MATERIAL DENSITY MASS C.G.: X Y Z TUBE_OPTO_COOLING_LOWER UNKNOWN 1.00000e+00 3.10818e+03 0.00000e+00 -5.85370e+01 5.99221e+01 FITTING_LUER_EXHAUST_4_MM UNKNOWN 1.00000e+03 3.54516e+05 1.19243e+02 -7.80561e+01 1.85161e+02 FITTING_LUER_EXHAUST_4_MM UNKNOWN 1.00000e+03 3.54516e+05 -1.19243e+02 -7.80561e+01 1.85161e+02