your hair will go towards the balloon
When a matchstick is rubbed against the side of the matchbox, friction generates heat, causing the red phosphorus coating on the match head to ignite. This ignition triggers a chemical reaction that releases energy in the form of heat and light, creating a flame.
A steam distillation sloping splash head is a glassware attachment used in steam distillation setups. It is placed on top of the distillation flask to prevent carry-over of boiling liquid into the condenser. As the vapor rises, it hits the sloping surface, condenses, and falls back into the flask, ensuring that only vaporized compounds are carried into the condenser for distillation.
No sweetie that wont work if you go to the doctors, the doctors will cure it so dont be frightened i have for 3 months i didnt feel anything after the numbing stuff! I trust you to be brave go head get it fixed it feels like heaven!!!!!!!!!!
The heads of strike-anywhere matches are composed of two parts, the tip and the base. The tip contains a mixture of phosphorus sesquisulfide and potassium chlorate. Phosphorus sesquisulfide is a highly reactive, non-toxic chemical used in place of white phosphorus. It is easily ignited by the heat of friction against a rough surface.
I am not sure about using alcohol; however, I can share with you depending on where the boil is located, soaking the area in warm water with Epsom salts, or a warm sitz bath is very effective in bringing the boil to a head. Hydrogen Peroxide is helpful if the boil is open. Many boils have to be lanced to allow the puss and infection to be released, whereby, the warm water/Epsom salt soaks/baths are more effective. The Epsom salt and warm water help to draw out the puss and encourage healing.
Static electricity.
Rubbing your head with a balloon creates more static electricity than dragging your feet across the carpet. This is because the friction between the balloon and your hair generates a larger amount of static charge.
Rubbing a balloon on your head creates static electricity. The balloon becomes negatively charged, which attracts the positively charged paper bits. This attraction causes the paper bits to stick to the balloon.
you are creating static electricity when you rubs ballon to your head. I love to shock my sister after rubbing my feet on the carpet, which is also static electricity. (if you can shock some one by just simply touching them, it's static electricity.)
Rubbing a balloon on your head can produce static electricity. This can also be accomplished by shuffling your feet across a carpet, when the humidity is very low. Another method that is used in science classes is the rubbing of a glass rod against a silk cloth. This allows the transfer of electrons to the rod. Another method is the use of a Van de Graaff generator, or a Whimshurst machine.
A balloon rubbed against your head will most likely stick to a surface like a wall or ceiling, as the rubbing generates static electricity which can cause the balloon to attract to surfaces with opposite charges.
It can depending on your hair type if you have sensitive skin it hurts a little but it wont hurt a whole lot
When you rub your head against a balloon and 1. Your hair sticks up and 2. The balloon can stick to the ceiling :)
An example is rubbing your head with a balloon. If you rubbed hard enough, your hair should stand up. Also, when you are VERY close to lightning, your hair stands up!!
No, a balloon filled with static electricity will not stick to metal if rubbed against your head. The static charge on the balloon and your head would not be strong enough to hold the balloon to the metal.
Betallatex is a brand of high-quality latex balloons that are often used in balloon decorations and bouquets. A head balloon refers to a special type of balloon that is larger, typically round or oval in shape, and is often used to create balloon characters and figures. Combining Betallatex balloons with head balloons can create unique and eye-catching balloon designs.
When you rub the balloon on your head, it creates a static electric charge on the surface of the balloon. This charge attracts the opposite charge (negative) on the ceiling, causing the balloon to stick to the ceiling temporarily due to the electrostatic forces between them.