The condition for an object to stay at rest or if moving, moving at a constant
velocity is that the sum of forces acting on the object be zero or that no force
acts on the object.
The condition for an object to stay at rest or if moving, keep moving at a constant
velocity is that the sum of forces acting on the object be zero or that no force acts
on the object.
For an object to increase its velocity, in other words to accelerate, there has to be
a force acting on the object. The force is the one responsible for the acceleration
of the object. Recall Newton's 2nd law of motion:
F = m∙a
where 'F' is the force acting on the object with mass 'm', and 'a' is the acceleration the object experiences.
The condition for an object to keep moving with constant velocity is that the sum of
forces acting on the object be zero or that no force acts on the object. "Rest" is just
one kind of constant velocity ... the kind with zero speed.
For an object to increase its velocity, in other words to accelerate, there has to be
a net force acting on the object, and the force must be in the direction of the
object's motion. The force is responsible for the acceleration of the object. Recall
Newton's 2nd law of motion:
F = m∙a
where 'F' is the force acting on the object with mass 'm', and 'a' is the acceleration
the object experiences.
When the object is at rest, the acceleration is zero. so the net total force acting on the body from all directions should be zero. when the object is moving with constant velocity, the acceleration is zero, so in this case too, after the motion is started, the force on the body should be zero. when the velocity is increasing, some acceleration is present, so some force should be present in the direction of the motion.
These are the various cases which can be explained by the equation:
Force = Mass * Acceleration.
here the mass remains constant, so acceleration depends on the net force/
If the sum of all forces on an object is zero, then the object remains in constant,
uniform motion.
'Constant uniform motion' means motion in a straight line at a constant speed.
The physical description of such motion is "constant velocity".
"Rest" is just constant velocity with a speed of zero.
If the sum of all forces on an object is NOT zero, then the object's velocity must
change. The change may consist of speeding up, slowing down, or turning in a
different direction.
If the sum of all forces on an object is zero, then the object remains in constant,
uniform motion.
'Constant uniform motion' means motion in a straight line at a constant speed.
The physical description of such motion is "constant velocity".
"Rest" is just constant velocity with a speed of zero.
If the sum of all forces on an object is NOT zero, then the object's velocity must
change. The change may consist of speeding up, slowing down, or turning in a
different direction.
If the sum of the forces is in the same direction as the object's motion, then
the object must speed up.
Probably due to how waves move in quantum theory. All matter is ultimately made of waves, which are in constant motion.
In order for an object to stay at rest it must have a constant velocity of zero. If the velocity increases, then the object will accelerate and will no longer be at rest.
The net force must be zero.
The Condition of Equilibrium, Force equal zero, is the condition of an object at rest or moving at constant velocity. Non-Equilibrium Condition, Force is not zero, is the condition for an object to move with increasing velocity.
A motion with a constant speed will always be moving the same speed A motion with a constant acceleration will constantly be gaining speed, and does not remain moving at the same speed.
Yes. An object moving at constant velocity has zero acceleration. The constant velocity van be any constant including zero velocity. Mathematics acceleration a=dv/dt = 0. Solving this gives v = constant.
An object moves with constant velocity when there is no net force acting upon it. If there are no forces acting on an object, or if the forces acting on it "cancel out" leaving a net force of zero acting on the object, it will have zero acceleration. With a zero acceleration, the velocity of the object will be constant.
That things tend to stay in motion.
The condition for an object to stay at rest or if moving, moving at a constant velocity is that the sum of forces acting on the object be zero or that no force acts on the object.
The condition for an object to stay at rest or if moving, moving at a constant velocity is that the sum of forces acting on the object be zero or that no force acts on the object.
The Condition of Equilibrium, Force equal zero, is the condition of an object at rest or moving at constant velocity. Non-Equilibrium Condition, Force is not zero, is the condition for an object to move with increasing velocity.
The condition for an object to stay at rest or if moving, moving at a constant velocity is that the sum of forces acting on the object be zero or that no force acts on the object.
The condition for an object to stay at rest or if moving, moving at a constant velocity is that the sum of forces acting on the object be zero or that no force acts on the object.
a "body" "moving body" an "object" is moving with constant velocity. [OR] a "body" is moving with constant velocity.
No resultant forces act upon it
The condition for an object to stay at rest or if moving, moving at a constantvelocity is that the sum of forces acting on the object be zero or that no forceacts on the object.Read more: What_are_the_condition_for_an_object_to_stay_at_rest_to_keep_moving_at_constant_velocity
Yes. An object moving in a straight line at constant speed has constant velocity.
A body is moving at constant velocity including zero at Equilibrium Condition, No change of energy or zero force. With force a body can accelerate, move with increasing velocity.
Velocity is Speed in a given direction. Moving at constant velocity is equivalent to say moving with a constant speed in a specified direction. So, moving at constant velocity implicitly means moving with constant speed.
When all forces are balanced, the object can either be moving at a constant velocity or be at rest. But because you asked for balanced forces on a moving object, it is moving at a constant velocity.