it's was a lever ..........
Wherever there is stress there is strain. In the example you noted, if heated bar expands freely without one end constained it changes its strain without stress; that strain is called eigenstrain. If the same bar is held rigidly then the eigenstrain resisted and you get stress and strain. So stress cannot exist without strain; but strain can exist without stress if it is eigenstrain.
2.27526991 bar ==
3 bar = 43.5113213 pounds per square inch
1 pa = 1x10-5 bar or 1 Mpa = 10 bar, therefore, to convert from Mpa to bar you simply take the number of Mpa and multiply it by 10.
Tie bar clearance
friction
A lever turns on a pivot == ==
A lever.
The stiff rod to which you are referring is a LEVER. The pivot point is the Fulcrum.
Yes, that's correct. A lever is a simple machine that consists of a rigid bar resting on a pivot point called a fulcrum. It is used to transmit or increase force, allowing for the lifting or moving of heavy objects with less effort.
True. A lever is a simple machine consisting of a rigid bar that can pivot, or rotate, around a fixed point called the fulcrum. The lever is used to transmit a force from one point to another by applying effort at one end.
In mechanics, a rigid bar that pivots about one point and that is used to move an object at a second point by pressure applied to a third point. The pivot therefore is variable according to the weight of the object to be moved
The scenario described is a simple pendulum. The rigid bar A, also known as the pendulum arm, swings from a fixed point called the pivot point or fulcrum. The motion of the pendulum is influenced by factors such as its length and the force of gravity acting upon it.
The components of a simple lever are a rigid bar (often called the beam or arm), a fulcrum (the pivot point where the bar rotates), and an effort force applied to one end of the bar to move a load located at the other end.
A pendulum is made up of a stiff bar that moves freely on a fixed point. The bar is attached to a pivot point and swings back and forth due to gravity acting upon it. Pendulums are commonly used in clocks and scientific experiments to measure time or gravity.
In science, a lever is a simple machine that consists of a rigid bar that pivots around a fixed point called the pivot or fulcrum. A force applied to one end of the lever can be used to move a load located at the other end, with the position of the pivot determining the mechanical advantage of the lever.
The rigid bar is not called a fulcrum! And, by the same token, why is the bar called a bar?