Different materials give different deflections depending on a number of properties. The main properties that effect deflection are the youngs modulus, size/shape of the section (2nd moment of area), elastic modulus.
All materials have different properties and values for the things mentioned above. So some materials will be able to deflect more than others.
The question is actually wrong, they can both have the same resistance if configured differently, the real question should be which has a higher resistivity which is the electrical resistance found in a standard amount of each material. In this case Manganin has a higher resistivity than copper.
Polymorphism.
They are not. They are connected differently, and the voltages and currents behave in different ways.
To calculate overlay using Benkelman beam deflections, first measure the deflection of the beam at the center when a known load is applied. Then, determine the deflection of the existing pavement under the same load, using the same setup. The difference between these two deflections indicates the amount of overlay required to achieve desired performance levels. This method helps assess the structural capacity of the pavement and informs the design of appropriate overlays.
Its the ordered growth of a material on the same material such that there vl be no any type of mismatch in their interface.
forlorn
If you want different results, do not do the same things. "Albert Einstein"
Material and fabric are one and the same and have many uses such as upholstery, clothing, underlayment and such. Different materials and fabrics are used differently.
actually, the results should be same (if area is =) as they both are doing the same force, but are placed differently.
The deflection amount of an electron is greater than that of a proton primarily due to the difference in their masses and charges. Electrons are much lighter than protons, which allows them to be influenced more significantly by electric and magnetic fields. Additionally, both particles have the same magnitude of charge, but the smaller mass of the electron results in a greater acceleration and consequently a larger deflection when subjected to these fields.
The source developers got different results from their research.
Because other websites do things differently and have it organized more different!
if f is applied on L length sprig it will deflect by x distance. When spring is L/2 deflection is also x/2 for same force f.. and K=F/deflection. there for k is inversaly proptional to deflection .. when deflection is half K is double.
Words that are spelled the same but pronounced differently are HOMOGRAPHS (a type of HOMONYM).
Two objects may be affected differently by the same strength force due to differences in their mass, shape, and material composition. These factors can influence how the force is distributed and how the objects respond to it, resulting in varying effects on each object.
Displacement refers to the distance and direction of movement of a point or body from its original position, while deflection refers to the bending or deformation of a structure under a load or force. Displacement is an absolute measure, whereas deflection is relative to the original shape of the structure.
same