This sounds like a homework question. Hint, define your parameters, and ask where the force is applied.
To know the force, you need to know how much you want to bend it; you also need to know the dimensions of the plate and how it is supported.
Steel is heavier than concrete for the same volume, however steel buildings are generally lighter. This is because steel buildings utilize high strength of steel, so volume of steel in steel buildings is much smaller than volume of concrete in concrete buildings. In another words in steel buildings much less volume of material is needed for the same strength compared to concrete buildings.
Work = (force) times (distance)We've got the distance through which the block is pushed: (1.3) x (4.7) = 6.11 meters .Now, in order to calculate the work it takes to do the pushing, we need to know the force that was used.On this subject, the question is strangely silent, and no solution is therefore possible.
The steel reinforcement used will depend on several factors. Column length, beam length, and the column and beam cross section all depend on how much steel will be needed.
Place a bucket beneath the 'U' bend to catch any water, and undo the pipe joints to remove the 'U' bend. Clean the pipes and 'U' bend as much as possible, before replacing the 'U' bend and tightening the joints (usually by hand if the pipes are plastic).
To know the force, you need to know how much you want to bend it; you also need to know the dimensions of the plate and how it is supported.
it depends on both the tube wall thickness and the length of the bend and how much you bend it. Otherwise you cannot determine force.
This is a completely unanswerable question, as it depends on several factors: the composition of the steel in question (there are a great many different alloys that go under the colloquial name "steel"), the type of force being applied (tension, compression, etc.), the design geometries of the object in question, and the environmental factors around the steel (primarily, but not exclusively, the temperature)
No. Steel reinforced structures are best as steel is much stronger than wood but can still bend without breaking.
60060
The spokes distribute the load throughout the rim. Here's how : Make a small ring of a thin steel wire. Hold it between your finger and thumb, and press. It will bend. Now, tie a straight piece of steel wire diagonally, and press the ring at the ends of the straight wire. You will need much more force. But, the same ring will bend with lower force, if you press it at points where straight wire is not there. Now, tie many such straight wires on the ring, and then press the ring. 'hope you got the picture clear :)
200 Newtons
The 2009 Legacy Sedan 3350-3625, depending on exact equipment and transmission.
About the only way to increase the force applied is to increase the outflow of the hydraulic pump. An increase in p.s.i. should boost the force applied to the rams. You're going to have to be careful that you do not blow hoses or rams or bend steel if you raise the power too much. These systems are engineered to run on available p.s.i. and increasing it could be too much for the bucket/ram assembly.
3625 in india per gram :P
The amount of force needed is dependent on a few variables. The density of the steel door, is the door hallow, and the muscle strength of the person kicking. To accurately assess more information is required.
yes any object is breakable its just a matter of how much force is applied to the object that will be broken.