Surface Waves.
You can use a mass damper There are many ways to make buildings less likely to collapse in an earthquake. Such as using good quality materials and reinforcing the building with steel beams. There are also several advanced techniques for building tall buildings which allow them to move with the earthquake rather than against it. (like a tree swaying in the wind) This technique is used in both Japan and California. Even though there are ways to make buildings withstand much fource, no building can withstand extremely powerful earthquakes. you can use hard materials and make the house a dome shape
Effective speech delivery involves making direct eye contact and speaking clearly. Also, one should remain still and avoid swaying or fidgeting. Effective speech delivery makes it easier for the audience to pay attention and understand the message of the speech.
Sentences with the word scintillating: "The annual ball was a scintillating collection of celebrities." "The necklace dazzled onlookers with its scintillating beauty." A (hopefully) scintillating sentence: "The desert at sunrise was a vast panorama of windswept dunes, interrupted only by the bright green island of the oasis, a shimmering pool surrounded by restlessly swaying palms."
Life without sound would be awful. Imagine seeing cars drive past, but never hearing the engines. Imagine seeing the trees swaying in the wind, or your hair blowing everywhere, but never actually hearing the wind. Imagine never being able to hear your parents, friends or other people talk to you. Life without sound is unimaginable unless you are actually deaf.
Surface Waves can propagate only along the boundary of solid.Two types are:Rayliegh Waves propagate along boundary between two dissimilar solid media, in a plane perpendicular to the surface and containing the direction of propagation.Love Waves are polarized shear wave with an associated oscillatory particle motion parallel to the free space and perpendicular to the direction wave motion.
The side to side swaying of the earth resonates up the building and continues to vibrate up and down the length of the building, resulting in it's destruction. This happens when a building is build too rigid and not elastic enough to withstand the intense vibrations.
There is a tall building in japan which has a massive metal weight on the top floor so when the earthquake hits it, the weight balances the building and stops it swaying back and forth
The Steel Frame buildings were ridig and lacked the flexibility to withstand lateral swaying during even a moderate magnitude quake.
You can use a mass damper There are many ways to make buildings less likely to collapse in an earthquake. Such as using good quality materials and reinforcing the building with steel beams. There are also several advanced techniques for building tall buildings which allow them to move with the earthquake rather than against it. (like a tree swaying in the wind) This technique is used in both Japan and California. Even though there are ways to make buildings withstand much fource, no building can withstand extremely powerful earthquakes. you can use hard materials and make the house a dome shape
Its not about the hight of the building its about the shape of the building. The building should be a triangle shape with a wide base and a narrow point; to help with stand a earthquake there is normally a tank of water at the top because if the building starts shaking the water would go in the oposite direction of where the building goes. Also at the bottom there should be large springs to allow the building to sway a little because if it is firm and still presure will build up and the building will collapse
The word: "swaying" has two syllables.
the tree was swaying like wave
Your Swaying Arms was created in 1991-05.
The palm trees are swaying in the warm summer winds.
for the perfect measurements,ie engineers and buildings incase of swaying etc.,....
because they like to dance
no