no. :)
The general shape is "bent".
The material was so pliable that it could easily be molded into different shapes.
Oh honey, let me break it down for you - if a molecule has a symmetrical shape like a straight line or a perfect tetrahedron, it's gonna be nonpolar. But if that molecule is all wonky and asymmetrical, like a bent shape or a trigonal pyramid, then you've hit the polar jackpot. So, remember kids, symmetry is key when it comes to molecular polarity.
Some typical shapes include tetrahedral, linear (or straight), bent, trigonal planar, trigonal bipyramid, and ring compounds.
Asymmetrical shapes like trigonal pyramidal and bent produce polar molecules. These shapes have an uneven distribution of electron density, resulting in a permanent dipole moment and creating a polar molecule.
I don't know about the second strongest but a triangle is the strongest. Even if each corner had a hinge, the triangle could not be bent whereas all other shapes do not have this property
There are about three types of pyramids in Ancient Egypt: "True" pyramid- The typical pyramid, with smooth sides and hard edges(the pyramids you would imagine) Bent pyramid- Very smooth and has curved sides(obviously looks bent!) Stepped Pyramid- Has many steps to the top(it's a STEP pyramid!)
Because it is soft and does not harm skin; it is also easily bent to create shapes for jelewlry.
Your reflection is based on the shape the mirror is.Example:If the mirror was bent outwards the reflected image would appear wider.If the mirror was bent inwards the reflected image would appear thinner.Usually you can commonly find mirrors like these in fun houses, and can be found in various shapes such as cones etc.
Malleability is how malleable an object is, for example a metal is malleable as it can be hammered or bent into different shapes without breaking. Ductility is how ductile an object is, again many metals are ductile as they can be drawn or pulled into a long strand of wire without breaking.
No, different colors of light get bent by different amounts when passing through a prism or experiencing refraction due to their different wavelengths. This phenomenon is called chromatic dispersion.