So I took my 2019 Tesla Model 3 Standard Range to a local benchmark hill. Configured to regenerate to a stop, I started at 70 mph and tracked the speed and altitude change: speed light blue - shows the GPS recorded speed descending the hill to 0 mph. altitude purple - shows the altitude of the car at each GPS recorded point. the only change was to turn off cruise control and Tesla coast to a stop. As shown, the Tesla handles regeneration very nicely in a way that ordinary ICE cars and our previous Prius failed All the other cars were flashing their brake lights to keep their speed in check. Even in "B" mode, our Prius continued to accelerate and we had to touch the brake pedal. In contrast, the Tesla modulated the regeneration for a near constant deceleration and a safe stop. Bob Wilson
A few metrics: 3,800 lbs measured by CAT scale 70 mph initial speed 55 ft altitude loss 29 seconds Bob Wilson
GPS provides the X, Y, and Z metrics. So I use what was measured. BTW, GPS is on the 3d or 4th generation: https://en.wikipedia.org/wiki/GPS_satellite_blocks Bob Wilson
Converting to standard units: 1724 kg 31.3 m/sec 16.8 m 29 seconds Use these formula: 836,399 J = 0.5 * 1724 * (31.3 * 31.3) - change in kinetic energy 283,839 J = 9.8 * 1724 * 16.8 - change in potential energy 1,120,238 J 38,629 W = 1,120,238 / 29 Bob Wilson
Thanks, but how did you access the data? My experience is nav systems just display maps and don't give you access to the altitude data.
I use car benchmarking software, Speedometer, on my iPhone. There are sets of car tuning and benchmarking apps available for smart phones. My survey found Speedometer fully meets my requirements and integrates well with Google Earth and Google Map. Bob Wilson
