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When you double the force acting on an object and keep the mass of the cart constant the acceleration is?
Doubled. According to Newton's second law of motion, acceleration is directly proportional to the net force acting on an object when mass is constant. Therefore, doubling the force will lead to a doubling of acceleration.
How could you keep an object acceleration the same if the force acting on object were doubled?
force = mass * acceleration if force is doubled, mass needs to be doubled to keep the same acceleration example: force = 6 mass = 2 acceleration = 3 6 = 2 * 3 12 = m * 3 12/3 = m 4 = mass
How could you keep an object acceleration the same if the force acting on the object were doubled?
By halving the mass. F = M A if F is doubled and A stays the same, in order for both sides to remain equal.. 2F = xM A x = .5
What does a balanced force have on a statinary object?
A balanced force acting on a stationary object will keep the object stationary. This means that the forces acting on the object are equal in magnitude and opposite in direction, resulting in no overall change in the object's motion.
What are the condition for an object stay at rest keep moving at constant velocity?
An object will remain at rest if the net force acting on it is zero. An object will continue to move at a constant velocity if the net force acting on it is zero and there is no external force to change its velocity.
Ability to stay at rest or to keep moving?
Inertia
What is the inward force on an object?
The inward force on an object is the force acting towards the center of the object. This force is required to keep an object moving in a circular path and is known as centripetal force. It is responsible for changing the direction of an object's velocity without changing its speed.
How could you keep an abject's acceleration the same if the force acting on the abject were doubled?
By doubling its mass at the same time. (That would probably be a lot harder than doubling the force on it.)
How could you keep an objects a acceleration the same if the force acting on the object were doubled?
Mass doesn't change. The relative appearance of that mass from the "stationary" observer does. Thus, a bus traveling at 50Mph weighs 20,000lbs, but at 95% the speed of light it's relative mass would be over 100,000 tons to the stationary observer. However, to the person traveling within or alongside the bus at the same speed, it's mass has not changed."Changing mass" implies that the object acquires new mass as it travels faster, which it cannot. It simply "appears" to change mass.
What are the conditions for an object to stay at rest to keep moving velocity or to move with increasing velocity?
The condition for an object to stay at rest or if moving, keep moving at a constantvelocity is that the sum of forces acting on the object be zero or that no force actson the object.For an object to increase its velocity, in other words to accelerate, there has to bea force acting on the object. The force is the one responsible for the accelerationof the object. Recall Newton's 2nd law of motion:F = m∙awhere 'F' is the force acting on the object with mass 'm', and 'a' is the acceleration the object experiences.Read more: What_are_the_conditions_for_an_object_to_stay_at_rest_to_keep_moving_at_constant_velocity_or_to_move_with_increasing_to_velocity
Can the object be in motion if the net force acting on it is zero?
Yes, an object can be in motion if the net force acting on it is zero. This is known as balanced forces, where the force causing the object to move is equal in magnitude and opposite in direction to the force resisting its motion.
If the net force acting on an object is zero then what will the object do?
It will keep moving with a constant velocity since zero net force means no acceleration. If the object is at rest, it will just stay at rest.
