The longer the drone stays in the air, the slower it gets compared to the train. The drone has to be moved forward, in order to keep up with the train, as shown at the 13 second mark.
Why? Do your own research. Based on the data that you linked, the drone is not able to keep up with the train, as shown at the 13 second mark. Why that is, you need to figure out yourself, as far as I am concerned.
Because it's you who is making a claim. I have provided videos and explanations for my arguments.
Based on the data that you linked, the drone is not able to keep up with the train, as shown at the 13 second mark.
Then how do you explain that up until then the drone is easily moving forward and backward, up and down?
How do you explain this? How does this mechanism that you are proposing work?
What exactly happens in your opinion in the moment the drone is not physically connected to the train? Why exactly would it not continue moving forward at the same speed it was moving when it was still physically connected to the train?
My claim is that the drone is moving backward at the 13 second mark, so based on the video you showed, the drone is not able to keep up with the train.
It is moving backward since it is losing speed over time, when in the air, so the train moves faster compared to the drone. It moves forward, as the pilot has to compensate for the speed lose of the drone, compared to the speed of the train. It moves up and down, as that is what the pilot made the drone do.
That is based on the video evidence you posted.
To figure out how these mechanism works, do your own research.
The longer the drone stays in the air, the slower it gets compared to the train. The drone has to be moved forward, in order to keep up with the train, as shown at the 13 second mark.
Ok, explain why it doesn't have to go as fast as the train right away on its own power. Why would it slow down? What would slow it down?
Explain the whole logic of your idea.
Why? Do your own research. Based on the data that you linked, the drone is not able to keep up with the train, as shown at the 13 second mark. Why that is, you need to figure out yourself, as far as I am concerned.
Because it's you who is making a claim. I have provided videos and explanations for my arguments.
Then how do you explain that up until then the drone is easily moving forward and backward, up and down?
How do you explain this? How does this mechanism that you are proposing work?
What exactly happens in your opinion in the moment the drone is not physically connected to the train? Why exactly would it not continue moving forward at the same speed it was moving when it was still physically connected to the train?
My claim is that the drone is moving backward at the 13 second mark, so based on the video you showed, the drone is not able to keep up with the train.
It is moving backward since it is losing speed over time, when in the air, so the train moves faster compared to the drone. It moves forward, as the pilot has to compensate for the speed lose of the drone, compared to the speed of the train. It moves up and down, as that is what the pilot made the drone do.
That is based on the video evidence you posted.
To figure out how these mechanism works, do your own research.