solid beam have more deflection
when the load is applied in the beam then deflection takes place. the nature of the deflection depends on the support provided on it
Because the load taking capacity of hollow shaft is more as the load per unit area is lesser due to the lesser cross sectional area.
If you can solve the beam reactions by the equations of equilibrium, then it is statically deterrminate. If not, that is, more unknown reactions than the equations of equilibrium, then it is indeterminate, and you need to know something about its deformation to solve the reactions.
Energy. The atoms in solid steel are moving more slowly than the atoms in liquid steel.
Well, honey, a simply supported beam has two degrees of freedom - one at each end where it can rotate and move up and down. So, if you're looking to shake things up with that beam, you've got a couple of options to play with. Just don't get too wild and start adding more degrees of freedom, keep it simple, sweetie.
Transverse deflection is typically calculated using a beam deflection formula, such as Euler-Bernoulli beam theory or Timoshenko beam theory. These formulas consider factors such as material properties, beam geometry, loading conditions, and boundary conditions to determine the amount of deflection at a specific point along the beam. Finite element analysis software can also be used to calculate transverse deflection for more complex beam configurations.
when the load is applied in the beam then deflection takes place. the nature of the deflection depends on the support provided on it
Semi-hollow guitars have a hollow body with a solid center block, while solid body guitars are entirely solid. Semi-hollow guitars produce a warmer, more resonant tone due to the hollow chambers, while solid body guitars have a brighter, more focused sound. Semi-hollow guitars are generally lighter and more comfortable to play for extended periods, while solid body guitars offer more sustain and feedback resistance.
The tonal differences between semi-hollow and solid body guitars are that semi-hollow guitars have a warmer, more resonant sound due to their hollow chambers, while solid body guitars have a brighter, more focused sound because of their solid construction.
they are hollow to be more aerodynamic
because the deflection in simple suported beam is more due to the orestriction at the ends as the ends are freely supported by twoo supports
A hollow shaft has a empty space inside, while a solid shaft is completely filled. Hollow shafts are lighter and can be more flexible, while solid shafts are stronger and stiffer. Hollow shafts are often used when weight is a concern, while solid shafts are used when strength is more important.
As you bring the source of light closer to the deflector the energy of the loss of energy from the light waves decreases. So the light waves strikes the deflector with greater energy. So more energy is needed to deflect them. Hence the deflection decreases.
The main difference between hollow body and solid body guitars is their construction. Hollow body guitars have a hollow chamber in the body, which creates a more resonant and acoustic sound. Solid body guitars, on the other hand, have a solid body without any chambers, resulting in a more sustained and electric sound.
A hollow gold chain has a hollow core, making it lighter and more affordable compared to a solid gold chain which is made entirely of gold. A solid gold chain is typically more durable and valuable due to its solid composition.
Hollow core doors have a hollow space inside, making them lighter and more affordable, but less soundproof and insulating. Solid core doors are heavier and more expensive, but offer better soundproofing and insulation.
It depends on the type of beam, the material, whether it is a bridge span or cantilever, the allowable deflection and safety margin needed. We need a lot more data on the application.