0
Having a constant force acting on the cart ensures that it moves with a consistent acceleration. This allows for accurate measurements of how the cart's motion changes over time, making it easier to analyze and understand the relationship between force, mass, and acceleration.
What else can I help you with?
What if The force of friction acting on a cart on a ramp is exactly balanced by the force of gravity acting on the cart down the ramp?
If the force of friction acting on a cart on a ramp is exactly balanced by the force of gravity acting on the cart down the ramp, the cart will remain at a constant speed and not accelerate. This is an example of a state of equilibrium where the forces are balanced, resulting in no net force acting on the cart.
What will the motion of the cart be like when there is no force at all?
he do not do any motion
What will the motion of the cart be like when there is no force at all there is no force friction in this model?
If there is no external force acting on the cart and no friction present, the cart will continue to move in a straight line at a constant velocity due to its inertia. It will keep moving unless acted upon by an external force.
How did doubling the force affect the acceleration of the cart?
Doubling the force will also double the acceleration of the cart, assuming the mass of the cart remains constant. This is in accordance with Newton's Second Law of Motion, which states that acceleration is directly proportional to the net force acting on an object.
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.
What if The force of friction acting on a cart on a ramp is exactly balanced by the force of gravity acting on the cart down the ramp?
If the force of friction acting on a cart on a ramp is exactly balanced by the force of gravity acting on the cart down the ramp, the cart will remain at a constant speed and not accelerate. This is an example of a state of equilibrium where the forces are balanced, resulting in no net force acting on the cart.
If a cart is observed moving at a constant velocity along a horizontal frictionless track is there a constant net force acting on it in the direction of motion?
No force is acting on it. Constant velocity means no acceleration, which means no force, from f=ma, no 'a' no force.
What will the motion of the cart be like when there is no force at all?
he do not do any motion
What will the motion of the cart be like when there is no force at all there is no force friction in this model?
If there is no external force acting on the cart and no friction present, the cart will continue to move in a straight line at a constant velocity due to its inertia. It will keep moving unless acted upon by an external force.
How did doubling the force affect the acceleration of the cart?
Doubling the force will also double the acceleration of the cart, assuming the mass of the cart remains constant. This is in accordance with Newton's Second Law of Motion, which states that acceleration is directly proportional to the net force acting on an object.
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.
What do you think will happen to the cart's acceleration when it is pulled with a constant net force?
The cart's acceleration will be directly proportional to the net force applied to it. If the force remains constant, the acceleration will also remain constant, assuming no other external factors are affecting the cart's motion.
If the force acting on a cart doubles what happens to the cart's motion?
it goes faster i assume.
Why the cart on left will move while the cart on the right not move?
The cart on the left will move because there is an unbalanced force acting on it, likely due to a force pushing it from the left. The cart on the right is likely not moving because the forces acting on it are balanced, resulting in no net force causing it to move.
How many forces acts on the horse-cart system?
In a horse-cart system, there are typically three main forces acting on the system: the force of the horse pulling the cart forward, the force of friction between the wheels and the ground resisting motion, and the force of gravity acting downwards on the horse and cart.
If A 70 kg cart is pushed for 50 m with a constant velocity upon a 45º frictionless incline Find the work done on the cart?
The work done on the cart is equal to the force applied multiplied by the distance moved in the direction of the force. In this case, since the incline is frictionless, the only force doing work is the force of gravity. The work done would be the force of gravity acting on the cart multiplied by the distance along the incline.
What is an example of a balanced force acting on an object?
Take the example of a book resting on a table. The downward force of the book's weight is matched exactly by the upward resistance of the table - hence the book remains where it is. (If the table was very flimsy, and unable to support the weight of the book, the book would accelerate towards the ground.)
