Static Electricity
Then the object is placed in an OVEN to soften and fuse the powder into a homogeneous film. Some objects which are painted by this method include: bicycle, tricycle, and motorcycle frames, metal filing cabinets, metal frames of office chairs and tables, etc., etc.
A dry powder sprayed on these metals DOES NOT WANT TO STICK. So, to make it stick until it can be melted/fused in the oven, STATIC ELECTRICITY IS USED. The metal object is hung on a metal conveyor line, which is charged negatively [I think], while the spray gun and paint powder is charged positively [I think. The polarity could be the other way around]. Then when the positively charged powder is sprayed onto the negatively charged object, it "sticks." Once the powder is melted/fused, it is firmly "stuck" to the metal object. Again, this is another EXAMPLE of an advantage of STATIC ELECTRICITY
static electricity
No, static electricity does not have a smell.
Static electricity is a noun phrase consisting of an adjective ("static") and a noun ("electricity").
Water can conduct electricity, so it can help static electricity to dissipate or discharge. If there is a buildup of static electricity on a surface, water can provide a path for the excess charge to flow away, reducing the effects of static electricity.
No, you cannot smell static electricity in the air.
static electricity is static electricity
static electricity
static electricity
No, static electricity does not have a smell.
Static electricity constitutes of charges that are static i.e. they do not move.
You can move things with static electricity!
Easy static electricity
Static electricity is a noun phrase consisting of an adjective ("static") and a noun ("electricity").
Static electricity translates into electrons not in motion. Typically, you rub rubber on fur to get static electricity. I get static electricity from petting my cat (I am a rubber of my cat, but I am not made of rubber.)
Becuase static electricity is generated by rubbing or by friction.
Water can conduct electricity, so it can help static electricity to dissipate or discharge. If there is a buildup of static electricity on a surface, water can provide a path for the excess charge to flow away, reducing the effects of static electricity.
Charges cause static electricity by charges