4. Results of modeling A#
4.1. Tested values#
Identification |
Reference |
Type |
Precision |
\(\mathrm{DZ}\) to point \(A\) \(t=2.0\times {10}^{-5}s\) |
—2.0e—3 |
|
|
\(\mathrm{DZ}\) to point \(A\) \(t=4.0\times {10}^{-5}s\) |
—2.0e—3 |
|
|
\(\mathrm{DZ}\) to point \(A\) \(t=1.0\times {10}^{-4}s\) |
—2.0e—3 |
|
|
\(\mathit{DZ}\) to point \(B\) \(t=2.0\times {10}^{-5}s\) |
—2.0e—3 |
|
|
\(\mathit{DZ}\) to point \(B\) \(t=4.0\times {10}^{-5}s\) |
—4.0e—3 |
|
|
\(\mathit{DZ}\) at point \(B\) \(t=1.2\times {10}^{-4}s\) |
0 |
|
1.E-4 |
\(\mathit{VZ}\) to point \(A\) \(t=2.0\times {10}^{-5}s\) |
—1.0e+2 |
|
|
\(\mathrm{VZ}\) at point \(A\) \(t=1.0\times {10}^{-4}s\) |
0 |
|
5.22 |
\(\mathrm{VZ}\) to point \(A\) \(t=1.2\times {10}^{-4}s\) |
+1.0e+2 |
|
|
\(\mathrm{VZ}\) to point \(A\) \(t=1.3\times {10}^{-4}s\) |
+1.0e+2 |
|
|
\(\mathit{VZ}\) to point \(B\) \(t=2.0\times {10}^{-5}s\) |
—1.0e+2 |
|
|
\(\mathit{VZ}\) to point \(B\) \(t=4.0\times {10}^{-5}s\) |
+1.0e+2 |
|
|
\(\mathrm{VZ}\) to point \(B\) \(t=1.2\times {10}^{-4}s\) |
+1.0e+2 |
|
|
Identification |
Reference |
Type |
Precision |
Integral of the speed between \({\mathrm{\tau }}_{0}\) and \({\mathrm{\tau }}_{1}\) at the point \(A\) |
0 |
|
0.17 |
Instant \((s)\) |
Reference |
Type |
Precision |
|
ENER_CIN |
|
NON_REGRESSION |
||
ENER_TOT |
|
NON_REGRESSION |
||
TRAV_LIAI |
|
NON_REGRESSION |
||
DISS_SCH |
|
NON_REGRESSION |
||
Kinetic energy |
\(t=0s\) |
3200 J |
ANALYTIQUE |
|
Potential energy |
\(t\mathrm{=}1.4e\mathrm{-}4s\) |
NON_REGRESSION |