It can resist because it can.
to resist shear force
Because ppc is most capacity of resist of heat
Reinforcement designed to resist shear or diagonal tension stresses.
the ability of beam or slab to resist failure in bending is called Flexural Strength of concrete.IIt is measured as modulus of rupture
if reinforcement is provided in tension zone in a beam, then that beam is called singly reinforced beam.if the reinforcement is provided in top & bottom of the beam i.e., at tension zone as well as compression zone also then that beam is called doubly reinforced beam.
Racking strength refers to the ability of a structure or material to resist forces that cause it to deform or bend out of its original shape. It is commonly used in the context of shelves, racks, or other storage systems to ensure they can hold weight without collapsing or failing.
RESIST was created in 2003.
A Portal Frame (singular) is a simple structure, usually with two columns and joining rafter that has joints that resist bending moments (ie fixed). These allow for bending forces within the members. Portal frame structures may refer to buildings consisting of multiple portal frames linked together. Easy to visualize, examples can include barns, sheds, warehouses - simple, open plan buildings.
Resist Music was created in 2004.
You Can't Resist was created in 1994.
The Hands Resist Him was created in 1972.
They are inertia and momentum. If an object is in motion it tends to "try" to stay in motion, and an object at rest does the same to stay put. The forces still act on it, although the forces are slightly weaker.
Resist the Atomic Menace was created in 1986.
Resist Convenience was created on 2006-02-21.
Resist - album - was created on 2001-09-17.
Friction is a force that can resist motion by acting in the opposite direction to the direction of movement. Other forces, such as air resistance and electromagnetic forces, can also resist motion by exerting a force against the direction of motion.
Internal forces within an object can resist external forces applied to it. These internal forces arise from factors like cohesion between particles or structural integrity, and they work to counteract the external forces and maintain equilibrium in the object. Examples include tension in a rope or compression in a beam.