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The job of a structural engineer is to deal with the analysis and design of the structurre. They choose the materials that must support the loads and resist tension and compression. The structure must be able to withstand the forces, weather and some natural disasters.
because by these method all loads are considered ,and the structure is designed to undergo these loads
It can hold whatever it's designed to hold, there's no definite limit. If you want it stronger, just add more/thicker cables.. Got that from another website. abUT i REALY WANT TO KNOW..How does the bridge withstand the loads placed upon it? PLZZ ANSWER IT!Read more: How_much_can_a_cable-stayed_bridge_hold
An arch bridge. I think that may have been discovered quite some time ago !!! +++ It was - the Romans used arches extensively, in buildings as a well as for bridges. However, the arch is indeed stronger than the plank, or simple beam, bridge because it transmits the loads to its abutments. You can stiffen a beam bridge by fitting it with vertical side-members, or in larger structures, frames (trusses).
Engineers have to ensure that the structures they design are suitable for purpose; for example, that bridges can carry the required loads without collapsing, aeroplanes are light enough and aerodynamic enough to fly etc... Clearly, all these calculations rely upon the ability to understand and apply maths; failure to do so would result in collapsing buildings and endangerment of lives.
its built well durh
Never i lic it
Never i lic it
Load bearing structures are structures where the loads are transferred to the foundation via load bearing walls(external and internal). These type of structures have a smaller window to walls ratio. Since the loads are borne by the walls the height of walls are limited. Framed structures are structures where the loads are transferred to the foundation via beams and columns. So beams and columns play a major role here. The loads in floor is transferred to the beams and then columns. These type structures can have large open areas in the walls. These type of structures can be adapted in high-rise buildings.
The job of a structural engineer is to deal with the analysis and design of the structurre. They choose the materials that must support the loads and resist tension and compression. The structure must be able to withstand the forces, weather and some natural disasters.
The Romans used oxen for hauling heavy loads. Although oxen were slower than mules, they were hardier and stronger and could pull heavy loads such as military siege equipment.The Romans used oxen for hauling heavy loads. Although oxen were slower than mules, they were hardier and stronger and could pull heavy loads such as military siege equipment.The Romans used oxen for hauling heavy loads. Although oxen were slower than mules, they were hardier and stronger and could pull heavy loads such as military siege equipment.The Romans used oxen for hauling heavy loads. Although oxen were slower than mules, they were hardier and stronger and could pull heavy loads such as military siege equipment.The Romans used oxen for hauling heavy loads. Although oxen were slower than mules, they were hardier and stronger and could pull heavy loads such as military siege equipment.The Romans used oxen for hauling heavy loads. Although oxen were slower than mules, they were hardier and stronger and could pull heavy loads such as military siege equipment.The Romans used oxen for hauling heavy loads. Although oxen were slower than mules, they were hardier and stronger and could pull heavy loads such as military siege equipment.The Romans used oxen for hauling heavy loads. Although oxen were slower than mules, they were hardier and stronger and could pull heavy loads such as military siege equipment.The Romans used oxen for hauling heavy loads. Although oxen were slower than mules, they were hardier and stronger and could pull heavy loads such as military siege equipment.
climbing up stairs
I'm not sure why this question is in cardiovascular health and I'm not a medical doctor. I will assume this question was placed in the wrong category and you are asking about he field of engineering. Structural engineers do a wide variety of tasks. They general will work with architects after their plans and models are complete. The architect will explain to the engineer what they building will look like and the structural engineers job is to plan out how the frame will be built. Structural engineers generally have great math skills and must calculate the amount of live and dead load on a buildings structure (frame, i.e. studs, beams, ect.) and have to design a frame that will withstand these loads. They are responsible for why skyscrapers stand up and why bridges can withstand the heavy loads placed upon them each day. I hope I answered what you were looking for in this question as I am assuming you are a student considering the field. NOTE: This answer is simplified to a great deal.
because by these method all loads are considered ,and the structure is designed to undergo these loads
Accelerometers Accelerometers measure the vibration. For some structures, a strain gage can be mounted to measure the strain(stress) that can be converted to loads on the aircraft which will give you an idea of the vibration frequency. Vibration is not a concern. It is the loads resulting from the vibration. Also, the natural frequency of the structure is critical. The aircraft should be designed so the natural frequency of the structure is not the same frequency of the applied loads. This is most crucial in a helicopter design. Engineers will study to predict the natural frequency of the helicopter and then test engineers will mount the helicoper(or partial structures) in a test rig and shake it to measure its responce to an input excitation load. Many aicraft have Center of Gravity Accelerometers that record the G-forces on the aircraft. This data is recorded in the Flight Data Recorder for post-accident crash investigation.
Everett H. Davis has written: 'Constructing farm buildings to withstand snow and wind loads'
Grade A? Grade 8 is a bolt with that is made from special alloys and heat treat to withstand heavy loads.