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Masses were moved from the cart to the hanger in a physics experiment to change the center of mass of the system. By adjusting the distribution of mass, the effects of forces such as tension or gravity could be studied more effectively. This manipulation allowed for better understanding of how different factors influence the behavior of the system.
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What is the velocity when the masses of the two carts are equal?
When the masses of two carts are equal, the velocity of the carts after an elastic collision will be approximately zero. This is because the momentum transferred from one cart to the other will cancel out, resulting in both carts coming to a stop.
Why must the mass in the F equals ma include the hanging mass as well as the mass of cart?
The mass in the equation F = ma must include the hanging mass as well as the mass of the cart because both masses contribute to the total inertia of the system. Inertia is a measure of an object's resistance to changes in its motion, and both masses affect the overall resistance to acceleration in the system. Including both masses in the calculation allows for an accurate determination of the net force required to accelerate the system.
A 10kg cart is moving at 5ms collides with a 5kg cart at rest and Causes it move 10ms What principle explain the result?
The principle of conservation of momentum explains this result. The total momentum of the system before the collision is equal to the total momentum after the collision. In this case, the momentum gained by the 5kg cart moving at 10 m/s is equal to the momentum lost by the 10kg cart, resulting in a balanced conservation of momentum.
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.
Why must the mass in the F equals ma include the hanging mass as well as the maass of the cart?
In the equation F = ma, the mass term includes both the hanging mass and the mass of the cart because the force being applied to the system is acting on the combined mass of the hanging mass and the cart. The total mass of the system affects its acceleration when a force is applied to it, so it is important to consider all masses involved.
Why does a wooden wheel of a cart has iron rim?
Explain how an iron rim is mounted on a wooden cart wheel
Why a cart pulled by a horse can be moved?
The horse is pulling is. Physics. Laws of motion.....
What would happen if a person was on a skateboard and that person pulled a cart by a cord?
It depends on the frictional forces and the masses. If the frictional forces were the same and the masses were equal, then the cart and the person on the skateboard would both move towards each other. If the mass of the cart were much bigger then the cart would move much less with the skateboarder moving most of the distance, if the cart were very light, then the skateboarder would move very little and the cart would move most of the distance. A higher frictional force in either of the two and the movement would be less for that system.
What is the use of room's boy cart?
A cart for a boy's room can have many uses. It might hold a game station, a television or board games. The cart might be moved around in the room to hold books, memorabilia or toys.
What is the use room boy's cart?
A cart for a boy's room can have many uses. It might hold a game station, a television or Board Games. The cart might be moved around in the room to hold books, memorabilia or toys.
Club car golf cart. Why does my Golf cart stop and go for no reason. After I moved the forward and reverse switch back and forth it seemed to fix the problem. No broken or corroded wires. Bat full?
ok it is the golf cart it like to be wierd
What is Aristole's horse cart theory?
Aristotle's horse-cart theory is a metaphor he used to explain the relationship between motion and change. Similar to how a horse pulls a cart, Aristotle believed that motion is caused by a force or "prime mover" that initiates change in the world. This prime mover is an immutable, eternal being that sets everything else in motion.
What is the velocity when the masses of the two carts are equal?
When the masses of two carts are equal, the velocity of the carts after an elastic collision will be approximately zero. This is because the momentum transferred from one cart to the other will cancel out, resulting in both carts coming to a stop.
What are the difference between car and bullock cart?
The common definition of car is a vehicle moved by an engine or motor such as an automobile or rail car. A bullock cart is a vehicle moved by an animal (bullock, horse, dog etc.). A bullock is generally an ox or any castrated male bovine. The bullock carts are still commonly found in most parts of Asia.
Why must the mass in the F equals ma include the hanging mass as well as the mass of cart?
The mass in the equation F = ma must include the hanging mass as well as the mass of the cart because both masses contribute to the total inertia of the system. Inertia is a measure of an object's resistance to changes in its motion, and both masses affect the overall resistance to acceleration in the system. Including both masses in the calculation allows for an accurate determination of the net force required to accelerate the system.
What is the definition of a horse-drawn?
An enclosed horse drawn carriage is called a "coach". Examples of a "coach" are the Town Coach, Stage Coach, and Mail Coach. A coach often has a hard top (though some have what is called an "auto-top" for lowering, such as a Landau), with glass windows and doors.
A 10kg cart is moving at 5ms collides with a 5kg cart at rest and Causes it move 10ms What principle explain the result?
The principle of conservation of momentum explains this result. The total momentum of the system before the collision is equal to the total momentum after the collision. In this case, the momentum gained by the 5kg cart moving at 10 m/s is equal to the momentum lost by the 10kg cart, resulting in a balanced conservation of momentum.
