A finger
Nail Within was created in 2001.
Would be the nail root, because it is the potion of the nail that is buried in a fold of skin.
the head ofa nail is called "dead end"
the head ofa nail is called "dead end"
It makes it easier to drive the nail into wood.
any end or to say specifically any molecule of magnet would attract the nail for nail is not a polarised one doubts can be clarified at hemanth87542@Yahoo.com any end or to say specifically any molecule of magnet would attract the nail for nail is not a polarised one doubts can be clarified at hemanth87542@yahoo.com
It depends on what is at the other end of the nail and how hard or soft it is. An impact on the nail can result in the following: 1. The head (impact point on the nail) will compress to some degree heat up somewhat. 2. The rest of the nail can compress, thicken and warm up. 3. The rest of the nail may bend. 4. If the object at the other end of the nail is hard enough, it will crack, split, or break. 5. If the object at the other end of the nail is soft enough, the nail will puncture it and enter into the object, and generate some heat as a result of friction.
The length of a cm is about from one end of you nail to the other end
get an nail wrap insulating wire around the nail( the more times you wrap it, it stronger it is), then connect one end of the wire to the positive end of a battery and the other to the negative end.
The nail in an electromagnet is the core of the electromagnet. It is there to provide the magnetic lines of force a "highway" to get from one end of the coil to the other end through the middle of the coil. The magnetic lines of force "like" the nail because it is a ferromagnetic material. They can travel through it very easily - and they do! The nail also provides the "working end" of the electromagnet. The magnetic field lines emerge from the nail, and then act on what is there. If you are, say, doing a separation experiment removing steel tacks that are mixed in with small brass nails (brads), the tacks will stick to the end of the nail at the "working surface" or the pole of the electromagnet.
hammer a small finish nail in the center of where you want the pattern. bend a small gauge wire at each end the length of the radius of the circle. slip one end onto the nail and a pencil into the other end. rotate around the nail until you have drawn a circle.