Measurement of an unknown velocity vector of a closed space

In summary, there are several methods for measuring the velocity vector of a closed space, including using Doppler radar, particle tracking systems, and sensors or cameras. Velocity is typically measured in units of distance per time, and can change over time due to various factors. However, there may be limitations to these measurements, such as range or accuracy issues. The measurement of the velocity vector is important in scientific research, providing insights into the movement and behavior of objects and fluids within the space, and aiding in the study and improvement of various systems.
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WalT888
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measurement of unknown velocity vector of a closed space
Hi

I found this paper on the measurement of unknown velocity vector of a closed space. Does it mean that it is possible to measure the unknown velocity vector of a closed space ? Can someone explain it to me
 

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  • #2
It's nonsense. The author has been banned repeatedly from this site for his inability to accept that this pet theory of his is based on his own failure to understand relativity (as Skeptick, RossBlenkinsop, and Ross B, from memory). Search his names if you want to see the arguments.
 
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Related to Measurement of an unknown velocity vector of a closed space

1. How is the unknown velocity vector of a closed space measured?

The unknown velocity vector of a closed space can be measured using various methods such as radar, laser doppler anemometry, or particle image velocimetry. These methods involve sending a beam of energy or particles towards the closed space and analyzing the reflected or scattered signals to determine the velocity vector.

2. What factors can affect the accuracy of measuring an unknown velocity vector?

Factors such as turbulence, surface roughness, and environmental conditions can affect the accuracy of measuring an unknown velocity vector. These factors can cause disturbances in the flow of the closed space and affect the readings of the measurement instruments.

3. Can the measurement of an unknown velocity vector be done in real-time?

Yes, the measurement of an unknown velocity vector can be done in real-time using advanced measurement techniques and high-speed data acquisition systems. This allows for the continuous monitoring and analysis of the velocity vector in a closed space.

4. How is the direction of the unknown velocity vector determined?

The direction of the unknown velocity vector can be determined by using a coordinate system and measuring the angle of the vector with respect to the axes. This can be done using sensors or by analyzing the position and displacement of particles in the closed space.

5. What are the applications of measuring an unknown velocity vector in a closed space?

The measurement of an unknown velocity vector in a closed space has various applications in fields such as aerodynamics, fluid mechanics, and aerospace engineering. It can also be used for understanding and predicting the behavior of fluids and gases in closed systems, which is crucial for many industrial processes.

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