Want this question answered?
No, the bodies muscles moving in response to signals form your balance organ acting to compensate for forces acting on the body is the 'act' of maintaining your body's balance.
Zero acceleration occurs when a body's velocity is constant. Newton's First Law of Motion tells us that this occurs when the external forces acting upon a body are balanced.
A body in uniform motion has no net force acting on it. That means that either there are no forces at all, or else that all the forces acting on it add up to zero.
Gravity.
The forces acting on a falling body are gravity and air resistance.
The body accelerates.
No, the bodies muscles moving in response to signals form your balance organ acting to compensate for forces acting on the body is the 'act' of maintaining your body's balance.
When balanced force present on a body, the net force is equal to zero.So it is not possible when balanced forces are acting on it.
balancedforce means that the sum of force acting on the body is zero.and the body are in balanced
Zero acceleration occurs when a body's velocity is constant. Newton's First Law of Motion tells us that this occurs when the external forces acting upon a body are balanced.
The simplest answer is a state of equilibrium exists when things are in balance. Physical, emotional, political, etc. It is the state of a body at which the resultant forces acting on the body will be zero. It is usually attained when the C.G of the body lies within and near its base. The state of the equilibrium is where there is no change. State of equilibrium means that there is a balance of forces summing to zero, or no acceleration. If there are no forces, there will be no acceleration or change of velocity.
A body in uniform motion has no net force acting on it. That means that either there are no forces at all, or else that all the forces acting on it add up to zero.
Depe
Gravity.
Balanced forces occur when a body is at rest, and when a body is moving at a constant speed in a constant direction.
The forces acting on a falling body are gravity and air resistance.
Two forces acting in the same direction cause the body to speed up (accelerate) if the forces are acting in opposite directions, subtract one from the other. The difference is the net force on the body and will be the direction in which it accelerates. Obviously, if they're the same size and opposite in direction, providing the body is rigid (it doesn't deform, in other words), the stat of motion of the body will stay the same (either at rest or moving at a steady speed in a straight line).