The different types of beams based on supports are simply supported beams, cantilever beams, overhanging beams, and fixed beams.

Flexible beams

Round beams

Slanted beams

Cantilever beams are beams that are supported at both ends, with no projection into space. An example of their application is in the construction of skyscrapers.

Cantilever beams are beams that are supported at both ends, with no projection into space. An example of their application is in the construction of bridges.

Cantilever beams are beams that are supported at only one end, with the other end projecting into space. An example of their application is in the construction of balconies, where the beam is fixed at one end and the other end supports the balcony structure.

Cantilever beams are beams that are supported at both ends, with no projection into space. An example of their application is in the construction of tunnels.

Fixed beams are flexible and can bend easily. They are used for decorative purposes only.

Fixed beams are not suitable for supporting heavy loads. They are mainly used for temporary structures.

Fixed beams are rigid structural elements that are fixed at both ends, preventing rotation and translation. They are used to support heavy loads and resist bending moments in buildings and bridges.

Fixed beams are designed to allow rotation and translation at both ends. They are used in lightweight construction projects.

Concrete support

Metal support

Wooden support

The different types of supports for beams include fixed support, roller support, and hinged support.

Roller supports are mainly used in aerospace engineering for stabilizing spacecraft during launch.

A roller support is a type of support that prevents any movement in a structure.

It is not necessary to use roller supports in engineering as they do not provide any significant benefit to structures.

A roller support is a type of support that allows a beam or structure to move horizontally. It is commonly used in engineering to provide support and flexibility to structures such as bridges and conveyor belts.

Circular load

The various types of loads that can act on beams include point load, distributed load, uniform load, concentrated load, and varying load.

Random load

Static load

A uniformly distributed load is a type of load that is applied randomly along the length of a beam. An example of its impact on beams is the wind blowing against the side of a beam.

A uniformly distributed load is a type of load that is evenly distributed along the length of a beam. An example of its impact on beams is the weight of a bridge deck or a slab resting on a beam, which creates a uniform load distribution along the length of the beam.

A uniformly distributed load is a type of load that is concentrated at one point along the length of a beam. An example of its impact on beams is a person standing at the center of a beam.

A uniformly distributed load is a type of load that is only applied to one end of a beam. An example of its impact on beams is a heavy object placed on one side of the beam.