Some allotropes of sulfur and phosphorus can. One form of sulfur is pasty just above room temperature, and at least one form of phosphorus is waxy at room temperature. However hammering phosphorus is risky as it ignites easily.
Yes, metal can be shaped by hitting it with a hammer. This process is known as forging, where the metal is heated to a high temperature and then shaped using a hammer or other tools. The force of the hammer changes the metal's shape without breaking it.
Yes.
Hitting a magnet with a hammer can disrupt its alignment of magnetic domains, potentially weakening its magnetic field. However, it will not create a new magnetic field.
Not at room temperature because mercury is a liquid.
Some allotropes of sulfur and phosphorus can. One form of sulfur is pasty just above room temperature, and at least one form of phosphorus is waxy at room temperature. However hammering phosphorus is risky as it ignites easily.
Yes, metal can be shaped by hitting it with a hammer. This process is known as forging, where the metal is heated to a high temperature and then shaped using a hammer or other tools. The force of the hammer changes the metal's shape without breaking it.
Either face of the head is the hitting surface.
its a rock that is shaped like a hammer
The hammer is shaped as it is so as to exert the maximum amount of force at the culmination of it's swing.
Hitting a nail with a hammer involves pushing the hammer down onto the nail to drive it into the surface. So, it is considered a pushing action.
Yes.
An example of impact force is when a hammer strikes a nail. The force of the hammer hitting the nail causes an impact that drives the nail into a surface.
Hitting it with a very big hammer
Hammer heads are NOT all "like a hammer". They come in many different shapes.
a hammer
It is kinetic energy.
nail forcing the hammer