Good day guys.
Not sure if this is a new topic for at most time we talk more about top speeds. One day as I was glancing my Eagletree GPS data and had some interesting findings. The data was acquired with THIS HPR115 cat.
Here are the graphs.
Obviously just speed runs back and forth, boring to read. but when zoomed in it looked different. From the graph it reads 1.6s from 0~100kmh, 2.2s to 120kmh. To my knowledge this is faster than any super sport cars, even Bugatti or Lambo. And it's so simple to gain this, just pull and hold the trigger.
Looking closer into the graph we can tell that the cat did not start from absolute zero speed, it was drifting with a speed of roughly 3kmh. It took 1.5s from 3~100kmh, so the average acceleration would be
(100-3)*1000/3600/1.5/9.8 = 1.83G
I have to say I was pretty surprised about how hard the props pushed my HPR115. Thought this could be another interesting way of boating besides top speeds.
Not sure if this is a new topic for at most time we talk more about top speeds. One day as I was glancing my Eagletree GPS data and had some interesting findings. The data was acquired with THIS HPR115 cat.
Here are the graphs.
Obviously just speed runs back and forth, boring to read. but when zoomed in it looked different. From the graph it reads 1.6s from 0~100kmh, 2.2s to 120kmh. To my knowledge this is faster than any super sport cars, even Bugatti or Lambo. And it's so simple to gain this, just pull and hold the trigger.

Looking closer into the graph we can tell that the cat did not start from absolute zero speed, it was drifting with a speed of roughly 3kmh. It took 1.5s from 3~100kmh, so the average acceleration would be
(100-3)*1000/3600/1.5/9.8 = 1.83G
I have to say I was pretty surprised about how hard the props pushed my HPR115. Thought this could be another interesting way of boating besides top speeds.
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