Home > categories > Rubber & Plastics > Rubber Sheets > Can sl65 amg go on speed bumps?
Question:

Can sl65 amg go on speed bumps?

I was just randomly thinking about the sl65 amg and I realized that it might be too low to go on speed bumps. Any owner know if this is true?

Answer:

it is likely but totally guessed that the smoke circuit is one circuit and anything else is on another. that being said they commonly used the same white wire for 2 circuits up to recently a few years ago. Take off the panel cover and follow the wire from the smoke breaker up till it leaves. If that wire is black then red or visa versa may leave inside the same wire jacket. if so that is a shared neutral aka white wire. likely then goes to closest to panel smoke then up to next and next farthest. inside one of those boxes the second wire will leave to the furnace likely as we are not sure how it was really done. look for loose wires including white ones. check the panels white for that circut first even. all breakers could be on but the return path is broken. if the first smoke works it is likely to be behind there.
If it's not just dusty and can be wiped with a wet paper towel, there is nothing you can do to make old rubber sheets sticky again that won't ruin the surface. Rubber sheets on the higher quality blades, like yours, are meant to be replaced after they are worn. They cost $20-$40 per sheet depending on the type and brand. To keep your rubber sheets longer, wipe them after playing, then either get some protective sheets or place your paddle in a ziploc bag to keep the air off it. Also, don't leave it in your garage or car. Heat is very bad for the rubber. I'm linking one site that sells rubber. There are many others.
Science is wonderfully equipped to answer the question of How but fails miserably when asked Why? All the answers posted here are theories. No one knows exactly why it works. Trust me I've been researching gravity for the past six years. It's a bit of an obsession for me. My favorite theory is that it's caused by particle interactions with the zero point field. You'll have to figure the rest out on your own (Including what the zero point field is because I don't have enough time to explain it sry).

Share to: