God and.......er.....g....god. Yes god and god
The two conditions of equilibrium are: 1. Concurrent Equilibrium the sum of vector forces through a point is zero. 2. Coplanar equilibrium, the sum of forces in a plane is zero and the sum of the torques around the axis of the plane is zero. These two conditions are similar to Ohms Laws in Electricity: Ohms Node Law the sum of the currents at a node is zero and Ohms Voltage law, the sum of the voltages around a loop is zero. These equilibrium conditions reflect the Quaternion mathematics that controls physics. Quaternions consist of a scalar or real number and three vector numbers. Equilibrium is the Homogeneous condition of a quaternion equation: the sum of the scalars or real numbers must be zero AND the sum of the vector numbers must also be zero. Thus there are TWO Conditions for Equilibrium. However if we were to use quaternions as nature does, then Equilibrium would be simplified to the zero quaternion condition.
In physics there are two common types of equilibrium: static equilibrium and neutral equilibrium. Equilibrium usually is related to potential energy, for a system to be at equilibrium it must maintain the balance between the two types of mechanical energy: potential and kinetic. The first equilibrium: static means that the system is in a relatively low (relatively means that there could be lower energy but the current states is a local minimum), thus small disturbances to the system will be returned to its original equilibrium. The other type of equilibrium is neutral equilibrium, the relative energies of the system is constant, thus disturbances to the system will move the system but it will remain at the same equilibrium value, and the system makes no effort to return to its original state. Please take a look at the graph for a visualization of these 2 types.
In any market, equilibrium is achieved when the level of demand is equal to level of supply. This means that there is a perfect balance between the two variables.
Two common market forces are supply and demand.
Basically, the two forces are supply and demand.
Hydrostatic and Equilibrium
The two forces that work together to keep the planets in orbit around the sun are gravity and inertia.
The forces are said to be in equilibrium in that case.
Yes. To be in equilibrium, the forces must not be perpendicular - they must point in opposite directions.
Nitrogen levels and surface radiation.
An orbit is made possible by an equilibrium, or balance, of forces. Typically, this involves two forces: one of gravitational attraction between the objects and another caused by centripetal acceleration. At a given radius of orbit, a velocity can be found such that these two forces are equal, keeping the object in orbit.
Coplanar or not, the two conditions for equilibrium are:The sum of all forces must be zeroThe sum of all torques must be zero.
If the forces are balanced they will have no action or the object, if not they will accelerate the object in the resultant direction of the two forces..
they two forces that are acting on the gases in the sun are megenetic feild pole and the ionized gas
*Equilibrium Equilibrium- Noun- - A state where two opposing forces or influences are balanced (or in rather simple terms) "Equilibrium? dat be when dat sh*t is balanced yeah?"
They have equal magnitudes and opposite directions.
Mechanical equilibrium is: - the state of rest or balance due to equal action of two opposite forces. - the equal balance of any powers