Experimental Verification of the NKTg Law Using NASA Mercury Data in 2025
Table 1 – Actual orbital and mass data of Mercury in 2024 from the NASA JPL Horizons System
Thời điểm x (m) v (m/s) m (kg) p = m•v
1/1/2024 5.16E+10 5.33E+04 3.30E+23 1.76E+28
4/1/2024 6.97E+10 3.90E+04 3.30E+23 1.29E+28
7/1/2024 5.36E+10 5.20E+04 3.30E+23 1.72E+28
10/1/2024 6.95E+10 3.92E+04 3.30E+23 1.30E+28
12/31/2024 4.64E+10 5.81E+04 3.30E+23 1.92E+28
Table 2 – Simulated orbital and mass data of Mercury in 2025 according to the NKTg law
Thời điểm x (m) v (m/s) m (kg) p = m•v (kg•m/s)
1/1/2025 5.16E+10 5.22E+04 3.301E+23 1.72E+28
4/1/2025 6.97E+10 3.87E+04 3.301E+23 1.28E+28
7/1/2025 5.49E+10 4.91E+04 3.301E+23 1.62E+28
10/1/2025 6.83E+10 3.95E+04 3.301E+23 1.30E+28
12/31/2025 4.61E+10 5.85E+04 3.301E+23 1.93E+28
Table 3 – Actual orbital and mass data of Mercury in 2025 from the NASA JPL Horizons System
Thời điểm x (m) v (m/s) m (kg)
1/1/2025 5.16E+10 5.34E+04 3.30E+23
4/1/2025 6.97E+10 3.89E+04 3.30E+23
7/1/2025 5.49E+10 5.04E+04 3.30E+23
1/10/2025 6.83E+10 3.98E+04 3.30E+23
12/31/2025 4.61E+10 5.89E+04 3.30E+23
Table 4 – Comparison between NKTg Simulation and NASA Data in 2025
Thời điểm v – NKTg v – NASA Sai lệch v tương đối (%)
1/1/2025 5.22E+04 53400 -2.15461
4/1/2025 3.87E+04 38900 -0.562786
7/1/2025 4.91E+04 50400 -2.561981
1/10/2025 3.95E+04 39800 -0.819213
12/31/2025 5.85E+04 58900 -0.707806
SCIENTIFIC CONCLUSION
On the experimental verification of the NKTg Law on planetary orbits
Abstract: This report presents the results of the experimental verification of the NKTg law through the simulation of Mercury’s orbit in 2025, using reference data from NASA JPL Horizons and the MESSENGER spacecraft.
1. Conservation of motion tendency through the quantity NKTg₁
The study confirms that the quantity NKTg₁ = x × p (the product of position and momentum) is the fundamental parameter determining the motion tendency of an object in space. The experimental results show that:
• Establishing NKTg₁ = x × p as a target constant (8.90E+38 NKTm) allows the prediction of orbital velocity with high accuracy, with an average relative error of only 1.3% compared to NASA data.
• The interaction between position (x) and momentum (p) self-adjusts to maintain this constant, enabling the object to preserve its motion structure and maintain a stable state without the need for external force parameters.
2. Experimental verification of mass variation (dm/dt) from MESSENGER data
The model integrates the actual mass variation coefficient dm/dt = -0.5 kg/s, established from measured data of the atmospheric escape phenomenon by the MESSENGER spacecraft. According to the NKTg law, this variation leads to:
• The formation of the quantity NKTg₂: The product of the rate of mass change and momentum (NKTg₂ = (dm/dt) × p) carries a negative value throughout the orbit.
• Resisting effect: The negative value of NKTg₂ confirms that the mass loss process plays a resisting role against changes in the state of motion, accurately reflecting the nature of varying inertia.
3. Consistency and applicability
The experimental results on Mercury confirm that the NKTg law has consistency and high applicability. The system demonstrates the capability to:
• Fully describe planetary dynamics solely through the interaction between fundamental quantities (x, v, m).
• Eliminate dependence on approximation methods, without using force expressions in the calculation process, ensuring the reproducibility of results across different computational platforms.
Experimental Verification of the NKTg Law Using NASA Mercury Data in 2025
Re: Experimental Verification of the NKTg Law Using NASA Mercury Data in 2025
Thanks, whoever you are, for posting your thoughts. This is really a philosophy forum, not a physics one, but let's not quibble about that.
I'm afraid that a lot of what you just posted is unclear to me, despite my own long-ago background in physics.
Some of the variables in the data set in your post are defined in - I think - Vietnamese? That makes it harder for most of us here to understand. What is "Thời điểm"?
I am assuming that you are proposing a law that you call the NKTg law. Is that so? What are the variables there, in English? g presumably is gravity? Further down your post you define x and p, but I assume N, K and T are also variables?
I hope you won't mind if I move this thread to the philosophy of science forum area. I think it will get more of the right kind of attention there.
I'm afraid that a lot of what you just posted is unclear to me, despite my own long-ago background in physics.
Some of the variables in the data set in your post are defined in - I think - Vietnamese? That makes it harder for most of us here to understand. What is "Thời điểm"?
I am assuming that you are proposing a law that you call the NKTg law. Is that so? What are the variables there, in English? g presumably is gravity? Further down your post you define x and p, but I assume N, K and T are also variables?
I hope you won't mind if I move this thread to the philosophy of science forum area. I think it will get more of the right kind of attention there.
Re: Experimental Verification of the NKTg Law Using NASA Mercury Data in 2025
One needs to refer to his other posts to try to make sense of it.
viewtopic.php?t=44754
viewtopic.php?t=44355
viewtopic.php?t=44754
viewtopic.php?t=44355
Re: Experimental Verification of the NKTg Law Using NASA Mercury Data in 2025
That's helpful. Thanks.