a live load bridge is a truck or a weight that after the bridge is made then you put the weight on the bridge and see if it holds!
Calculation of crane related The crane wheel load, usually referred to as maximum wheel load is the total load in pounds that any single crane wheel will see. The formula for determining MWL is Bridge weight / 2 + {Live load ( crane capacity + hoist weight) x 15%impact*)/ Number of wheels on a single end truck. For a top running 5-ton capacity crane, with a bridge weight of 8000 lbs. and a hoist that weights 900 lbs. with four wheels total: 8000/2+(10000+9000x1.15)/2=12925 *15% impact for hoist speeds under 30 fpm in CMAA Class C Service
dc motors can be operated at no load as well as at load condition.But by using the swin burns test the efficiency can be calculated at no load which is more benficial than load test.At industries this swin burns test is used because for load test we have to give separate supply for the load to run.In no load test that power is saved.
the safe working load is the load the stand can support safely without failure. It Is called safe because it can generally stand up to five times the safe load but one should not intentionally exceed the safe load. Safe load is also called working load or rated load
Buckling Load: It is the highest load at which the column will buckle. Crippling Load: It is the max load beyond that load, it cant use further it becpomes disable to use. The buckling Load < The Crippling Load Safety load= Crippling Load/ Factor of safety
The load arm is the radius of the pulley. This is the distance from the fulcrum to the load-carrying side of the rope.
In bridge construction dead load, live load, and dynamic load must be considered. Dead load is the weight of the bridge itself. Live load is the moving weight on the bridge. Dynamic load comes from outside forces like wind and vibrations.
Trucks, etc.
A dead load is the weight of the bridge or vehicle or building excluding the people or objects in it(An example is: If you were standing on a bridge all alone you would be the live load and the bridge itself would be the dead load)
A dead load is the weight of the bridge or vehicle or building excluding the people or objects in it(An example is: If you were standing on a bridge all alone you would be the live load and the bridge itself would be the dead load)
The dead load is the weight of the bridge itself. The live load is things like traffic, wind, rain, etc. The dynamic load are things like earthquakes, big gusts of wind, and other things.
The weight of the stuff on the structure is called the live load. Things that move in or on a structure, like people and cars, are examples of live load. A live load causes compression on the bridge deck. If you apply too much weight, the beam will fail because it can't support the heavy weight of the live load above it. To strengthen it, thicker beams are used. Then, it is less likely to bend. Thick beams are used in structures that experience live and dynamic loads.
In engineering terms, dead load refers to the unchanging weight of a structure itself, plus any other load that may permanently be a part of the structure. On a bridge, for example, the main dead load would be the weight of bridge, and there would also be the weight of the abutments and perhaps a tollbooth.
What are the basis of a bridge load limit?
The load of a bridge is the amount of weight that can be distributed throughout the bridge without collapsing. Engineers take into effect, wind, rain, and earthquakes when calculating the load.
Dynamic Load The "load" is the total force and weight that a structure such as a bridge is designed to withstand. For a bridge, the total load includes the "dynamic" loads of traffic, people, wind, snow, and ice and the "static" load of the bridge's own weight.
A weight/load that does not move. For example, on a bridge, if there is a statue on the bridge, that would be considered a static load. A dynamic load is one that moves, such as cars passing over the bridge.
the load is compression and tension