Glad you enjoy it!

Welcome aboard!

Glad you liked it!

OK, will put it on the list

@@BSport320 Looking forward to that.

Theoretically good idea but in reality you deal with bumpy tracks and kerbs, so you need a certain clearance. Also if a very low car rolls it will touch the ground with the outboard side. Controlled separation of flow is tricky because it depends on weather conditions, dirt on the car etc. An easier way is to back the whole car off with a soft heave spring at the back - which is what F1 is currently doing.

@@BSport320 Heave springs sounds like an excellent topic for the next video 🙂

@@damncritics Now that you say it... good idea! Will put it on my list.

OK, what exactly do you mean? Influence of rain on aerodynamics?

I'm currently working on a video about crosswind behaviour ;)

That really depends of the particular diffuser shape. In general, the closer you get to the ground with a diffuser, the more downforce you can get but there is a maximum. If you get lower than the maximum you loose downforce again. So for your question it's possible that the outboard front diffuser is increasing more downforce than the inboard one is loosing, so overall you would get more. Another thing to consider here is that the flow doesn't hit the front diffuser straight while turning and you could loose only because of that. So it really depends on their shape...

Because it can cause flow separation to the front splitter/undertray which can heavily affect grip at high speeds.

I think it's because for mechanical grip, you want the softest suspension possible without bottoming out the car. This allows for more effective weight transfer and have the weight where it's needed at the most. But for aerodynamic grip, you want the stiffest suspension possible to give the aerodynamic body of the car the most stable platform possible. In low speed corners where mechanical grip > aerodynamic grip, softer is better. In high speed corners, aerodynamic grip > mechanical grip. That's what I understand at least, I have mo background knowledge of any engineering.

@@epitosu6461 Pretty close. In a purely mechanical sense the most grip is when all 4 tires are using all the contact patch etc. So softer suspension to a point allows the tires to more easily stay in contact with ground at all times. But you can go too soft and have so much roll the inside tires are losing grip by being lifted off the ground. For aero you would ideally want the most stable platform you can have so that its more predictable for the design and thus can be more aggressive. That is the reason Williams came up with the Active Suspension, to try and keep the car level to the surface of the track at all times to increase aero performance.

@@cademckee7276 Thanks for the clarification!