They use more of a flexible walls and beams instead of strong flat beams, so that in an earthquake they can sway, not fall.
Yes, through the use of global positioning systemsscientists use satellite data to predict earthquakes.
Earthquakes are detected and measured using seismometers or seismographs.
It is important because improperly coded algorithms can crash the system or require geometric scaling resources.
Earthquakes
Others study the impact of human activity on Earth's environment, and design methods to protect the planet. Some use their knowledge about Earth processes such as volcanoes, earthquakes, and hurricanes to plan communities that will not expose people to these dangerous events.
you need to find out the necessary force and supports for the design before building it.
Reduce the use of steel
Actually taller buildings withstand earthquakes a lot better because the shock is absorbed up the building. This causes lest force to be exerted. Usually buildings that are more than 10 stories remain standing, even after severe Earthquakes.
Base isolation pads can be built to absorb the vibrations to withstand earthquakes. Building materials can be reinforced to withstand an earthquake. For example, wood can be reinforced with bolts to make the wood more secure.
www.smartdraw.com or www.floorplanner.com are fairly easy to use.
CAD stands for computer-aided design and drafting (CADD). It is technology for design and technical documentation, it is the use of computers to aid in the creation ,modification, analysis of a design.
We use y_y axes
well it is just to gain xp by building it also you can use it as a decoration .
In the recent times, Moduar Building Construction helps to design an effective building with all accessories, Here you can use Oak woods too for building an a customized structure. Source : www.talkmodularbuildingltd.co.uk
You can trademark a product or service. You can also use other types of "marks" for sounds or building design.
You can stack these blocks on top of each other to create a design.
The branch of science and technology concerned with the design, building, and use of engines, machines, and structures