When there is no observation change in the state of a body
For complete equilibrium of a body, the sum of all forces acting on the body must be zero (ΣF = 0) and the sum of all torques acting on the body about any point must also be zero (Στ = 0). This means that both the translational and rotational aspects of equilibrium are satisfied, ensuring that the body remains stationary and does not rotate.
Equilibrium is the body's ability to maintain stability and balance. It is crucial for various body systems like the vestibular system, which helps in balance and spatial orientation, and the nervous system, which controls muscle movements. Disruptions in equilibrium can lead to issues such as dizziness, vertigo, and falls.
In equilibrium, the net force acting on the body is zero, meaning that the body is either at rest or moving at a constant velocity. Additionally, the sum of all torques acting on the body is zero, indicating rotational equilibrium.
A body is refered to be in equilibrium when the forces acting on it cancel each other out, that is, the body has no resultant force. because F=ma , it can also be stated that a body is in equilibrium when there is no acceleration or deceleration in any direction. Therefore, if a body is moving at a steady speed, although it IS moving, it is still at equilibrium. We normally do not think of a moving object as one in equilibrium but that is because in an actual situation, air drag would cause an object to be in equilibrium with 0 velocity.
Complete equilibrium refers to a state in which there is a balance or equality between opposing forces or influences. In a complete equilibrium, there is no net change or tendency for change in the system, resulting in stability. This concept is often used in fields such as chemistry, physics, and economics to describe a system that has reached a state of balance.
when vector sum of all forces and all torques is zero.
For complete equilibrium of a body, the sum of all forces acting on the body must be zero (ΣF = 0) and the sum of all torques acting on the body about any point must also be zero (Στ = 0). This means that both the translational and rotational aspects of equilibrium are satisfied, ensuring that the body remains stationary and does not rotate.
A body is in equilibrium when the force on it is zero, thus if a single force is on the body, the force must be zero or the body will not be equilibrium.
A body is in equilibrium when the force on it is zero, thus if a single force is on the body, the force must be zero or the body will not be equilibrium.
The first condition of equilibrium can be applied on concurrent forces that are equal in magnitude, since these produce translational equilibrium. But if the forces are equal in magnitude but are non concurrent then even first condition of equilibrium is satisfied but torque is produced which does not maintain rotational equilibrium. Hence for complete equilibrium that is, both translational and rotational , both the conditions should be satisfied.
A body is mechanical equilibrium if the sum of the net forces acting upon it is zero.
Equilibrium is the body's ability to maintain stability and balance. It is crucial for various body systems like the vestibular system, which helps in balance and spatial orientation, and the nervous system, which controls muscle movements. Disruptions in equilibrium can lead to issues such as dizziness, vertigo, and falls.
It means there are no unbalanced forces, or the net force is zero. That means if a t rest it will stay at rest, or if in motion it will stay in motion with no acceleration.It means that there is no net force acting on the object(s). A body moving at constant velocity is in mechanical equilibrium. A body that is not moving is in static equilibrium.
In equilibrium, the net force acting on the body is zero, meaning that the body is either at rest or moving at a constant velocity. Additionally, the sum of all torques acting on the body is zero, indicating rotational equilibrium.
If it remains at constant speed then it can be considered to be in equilibrium.
The equilibrium condition requires the sum of the forces on the body to be zero.
Newton's First law of motion states that everybody continues or tends to be in its state of rest, or of uniform motion, unless it is compelled to change that state by force impressed on it. This law leads to the definition of inertia & equilibrium. when state of object does not change with time , we say the body is in equilibrium . According to the first law for equilibrium there must be zero force on the object. Equilibrium can be classified as : 1. Translatory equilibrium:when a body is at rest or moves on a straight line with constant velocity we say that the body is in translatory equilibrium , however several force may be acting on particle in this state, but the resultant force on the object is zero.Thus, vector R = Summation vector F = 0 represents translatory equilibrium. 2. Rotational equilibrium:When body is not rotating at all or its rotating at constant rate it is said to be in rotational equilibrium. This is Newton's first law of motion,equilibrium.