Premise:[]
Basically, she saves someone from being hit by Truck-kun here. Effectively taking the brunt of the hit of the damage. That's it.
Calculation:[]
Now, Truck-kun can come in any form. And the profile assumes that she was hit by a pickup truck. Which, well... aren't what we see in the scan, at all. Judging by the front of the truck, it more closely resembles a delivery truck. More specifically, reminds me of an Isuzu Giga. Even more specifically, the CY 8×4 models, which matches up with the square-ish build of the front of truck, and has a set of two wheels on each side. Anyways, those usually have a Gross Vehicle Mass (GVM) of 29 tonnes. However, when regarding GVM, it accounts for the fact that the vehicle is fully loaded with its passengers, fuel, and any other contents within it. We can't say for sure how much space the truck still has, nor the fuel it already used in the journey, so let's assume about 10% of is spacious, considering fuel usage and the practicality of how much should be loaded in order for it to drive at a convenient pace. Not to mention the fact that we only see one person exiting the vehicle, so assuming all of this, we get the following.
29000 Kg - ((29000 Kg*.1)+62 Kg) = 26038 Kg
Now that we have our Mass, let us move onto speed. Now the event takes place over in Japan, so they have their own standards for Speed limits, that of which is not found in our References for Common Feats page. Japan usually has their speed limit at 60 km/h for any other road, but it does look like the incident took place at an urban area, where it is usually zoned at 40 km/h. And so that establishes our high and low End.
Now since she didn't get run into a wall, nor did the impact of the truck running into didn't have any trace of it stopping dead in its tracks because of the impact, so I will have to use this formula.
FinalSpeed = (MassCar*InitialSpeed):(MassPerson+MassCar)
Tsukasa's Mass is about 41 Kg, so...
Urban Speed limit: (26038*11.111)/(41+26038) = 11.0936428203 m/s
Other Road Speed limit: (26038*16.667)/(41+26038) = 16.6404642305 m/s
Now we can get onto finding KE now.
Urban KE: 0.5*41*11.0936428203² = 2522.9126760001 Joules
Other Roads KE: 0.5*41*16.6404642305² = 5676.5535210343 Joules
Conclusion:[]
Urban End: 2.522912676 Kilojoules (Street level)
Other Roads End: 5.675553521 Kilojoules (Street level)
So in the end, still Street level, but not as low as one would think, depending which end is chosen compared to what was agreed upon in the CRT.