if the fan rotates at constant speed ,then it's angular velocity is constant so net torque must be zero
Yes, for an object to be in rotational equilibrium while rotating with uniform speed, the sum of all torques acting on it must be zero. This means that the rotational forces causing the object to rotate must be balanced and no net torque is applied.
A fan moving with uniform angular speed is in dynamic equilibrium. This is because even though the fan is rotating at a constant rate, there are still forces acting on it to keep it moving in a circular path, such as air resistance and friction.
A body moving with uniform velocity is not in equilibrium because it is experiencing a constant change in position. Equilibrium is achieved when the net force acting on the body is zero, resulting in no acceleration. In this case, the body is not at rest and therefore not in equilibrium.
The induced EMF in a coil rotating in a uniform magnetic field depends on the strength of the magnetic field, the number of turns in the coil, the area of the coil, the speed of rotation, and the angle between the magnetic field and the plane of the coil.
The work done in rotating an electric dipole in a uniform electric field from parallel position to anti-parallel position is zero. This is because the torque applied to rotate the dipole is perpendicular to the direction of the electric field, so the work done is zero.
A body is in equilibrium when the net force acting on it is zero, meaning that the forces are balanced, and there is no acceleration. The conditions for a body to be in equilibrium include both the vector sum of all forces acting on the body being zero (ΣF = 0) and the sum of all torques acting on the body being zero (Στ = 0), which ensures rotational equilibrium.
A fan moving with uniform angular speed is in dynamic equilibrium. This is because even though the fan is rotating at a constant rate, there are still forces acting on it to keep it moving in a circular path, such as air resistance and friction.
there are two types of equilibrium are: 1. static (at rest position) 2. dynamic (in uniform motion)
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.
uniform commercial
A body moving with uniform velocity is not in equilibrium because it is experiencing a constant change in position. Equilibrium is achieved when the net force acting on the body is zero, resulting in no acceleration. In this case, the body is not at rest and therefore not in equilibrium.
A. Doublet, vortex and uniform flow B. Source, vortex and uniform flow C. Sink, vortex and uniform flow D. Vortex and uniform flow
in a state where the sum of all the forces acting on it is zero, and the sum of all the torques acting on it is also zero. This means the body is not experiencing any acceleration or rotation.
The condition achieved when molecules are evenly spread in an area is called equilibrium. At equilibrium, the concentration of molecules is uniform throughout the area, with no net movement of molecules in any particular direction. This state is also known as dynamic equilibrium, where molecules continue to move but the overall distribution remains constant.
It is approx 0.4388 However, I am not at all sure what you mean by "the condition ace with non uniform distribution". None of the relevant distributions are uniform so the condition seems to be totally irrelevant!
A uniform circular motion occurs when an object moves in a circular path at a constant speed. This motion requires a centripetal force directed towards the center of the circle to keep the object moving in a circular path without changing its speed.
Equability is the state or condition of being equable, uniform, or constant.
The word you are looking for is "uniform," which means distributed or arranged consistently and evenly across a space.