For a fluid which of the following is a suitable flow model?
1.Finite control volume approach
2.Infinitesimal fluid element approach
3.Molecular approach
4.All three models can be applied based on the requirement
Posted Date:-2024-03-21 10:27:51
The shock wave is formed in?
1.subsonic flow
2.transonic flow
3.supersonic flow
4.None of these
Posted Date:-2024-03-21 10:20:55
The shock wave is formed in?
1.subsonic flow
2.transonic flow
3.supersonic flow
4.None of these
Posted Date:-2024-03-21 10:20:56
The shock wave is formed in?
1.subsonic flow
2.transonic flow
3.supersonic flow
4.None of these
Posted Date:-2024-03-21 10:20:57
The shock wave is formed in?
1.subsonic flow
2.transonic flow
3.supersonic flow
4.None of these
Posted Date:-2024-03-21 10:20:58
The shock wave is formed in?
1.subsonic flow
2.transonic flow
3.supersonic flow
4.None of these
Posted Date:-2024-03-21 10:20:59
The shock wave is formed in?
1.subsonic flow
2.transonic flow
3.supersonic flow
4.None of these
Posted Date:-2024-03-21 10:21:00
The shock wave is formed in?
1.subsonic flow
2.transonic flow
3.supersonic flow
4.None of these
Posted Date:-2024-03-21 10:21:01
The shock wave is formed in?
1.subsonic flow
2.transonic flow
3.supersonic flow
4.None of these
Posted Date:-2024-03-21 10:21:02
The shock wave is formed in?
1.subsonic flow
2.transonic flow
3.supersonic flow
4.None of these
Posted Date:-2024-03-21 10:21:03
The shock wave is formed in?
1.subsonic flow
2.transonic flow
3.supersonic flow
4.None of these
Posted Date:-2024-03-21 10:21:04
Under which flow similarity, scale, volume, and length fall?
1.Geometric Similarity
2.Kinematic Similarity
3.Dynamic Similarity
4. None of these
Posted Date:-2024-03-21 10:20:15
Under which flow similarity, the force of inertia falls?
1.Geometric Similarity
2.Kinematic Similarity
3.Dynamic Similarity
4.None of these
Posted Date:-2024-03-21 10:28:52
Under which flow similarity, the force of inertia falls?
1.Geometric Similarity
2.Kinematic Similarity
3.Dynamic Similarity
4.None of these
Posted Date:-2024-03-21 10:28:53
Under which flow similarity, the force of inertia falls?
1.Geometric Similarity
2.Kinematic Similarity
3.Dynamic Similarity
4.None of these
Posted Date:-2024-03-21 10:28:54
Under which flow similarity, the force of inertia falls?
1.Geometric Similarity
2.Kinematic Similarity
3.Dynamic Similarity
4.None of these
Posted Date:-2024-03-21 10:28:55
Under which flow similarity, the force of inertia falls?
1.Geometric Similarity
2.Kinematic Similarity
3.Dynamic Similarity
4.None of these
Posted Date:-2024-03-21 10:28:56
Under which flow similarity, the force of inertia falls?
1.Geometric Similarity
2.Kinematic Similarity
3.Dynamic Similarity
4.None of these
Posted Date:-2024-03-21 10:28:57
Under which flow similarity, the force of inertia falls?
1.Geometric Similarity
2.Kinematic Similarity
3.Dynamic Similarity
4.None of these
Posted Date:-2024-03-21 10:28:58
Under which flow similarity, the force of inertia falls?
1.Geometric Similarity
2.Kinematic Similarity
3.Dynamic Similarity
4.None of these
Posted Date:-2024-03-21 10:28:59
Under which flow similarity, the force of inertia falls?
1.Geometric Similarity
2.Kinematic Similarity
3.Dynamic Similarity
4.None of these
Posted Date:-2024-03-21 10:29:00
Under which flow similarity, the force of inertia falls?
1.Geometric Similarity
2.Kinematic Similarity
3.Dynamic Similarity
4.None of these
Posted Date:-2024-03-21 10:29:01