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2 carts are pushed with the same amount of force However 1 shopping cart has a greater mass than the other how does the mass of the cart affect their acceleration?
The shopping cart with greater mass will have lower acceleration compared to the shopping cart with lower mass. This is because acceleration is inversely proportional to mass when the force applied is kept constant.
F the cart has a mass of 22 kg and the girl pushes with a force of 12 N what is the cart's acceleration?
F = m aa = F/m = 12/22 = 6/11 = 0.545 meter/sec2 (rounded)
If the cart has a mass of 22 kg and the girl pushes with a force of 12 N, what is the cart's acceleration?
The cart's acceleration can be calculated using Newton's second law, which states that (F=ma) (force equals mass times acceleration). In this case, the force is 12 N and the mass is 22 kg. Therefore, the acceleration of the cart is (a = \frac{F}{m} = \frac{12 N}{22 kg} \approx 0.55 , m/s^2).
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.
A cart of a certain mass has a certain net force exerted on it and its acceleration is 4 ms2 what happens to the acceleration if the cart's mass doubled force?
If the cart's mass is doubled, its acceleration would be halved if the force remains constant. This is because acceleration is inversely proportional to mass, so an increase in mass would result in a decrease in acceleration when force is held constant.
2 carts are pushed with the same amount of force However 1 shopping cart has a greater mass than the other how does the mass of the cart affect their acceleration?
The shopping cart with greater mass will have lower acceleration compared to the shopping cart with lower mass. This is because acceleration is inversely proportional to mass when the force applied is kept constant.
F the cart has a mass of 22 kg and the girl pushes with a force of 12 N what is the cart's acceleration?
F = m aa = F/m = 12/22 = 6/11 = 0.545 meter/sec2 (rounded)
If the cart has a mass of 22 kg and the girl pushes with a force of 12 N, what is the cart's acceleration?
The cart's acceleration can be calculated using Newton's second law, which states that (F=ma) (force equals mass times acceleration). In this case, the force is 12 N and the mass is 22 kg. Therefore, the acceleration of the cart is (a = \frac{F}{m} = \frac{12 N}{22 kg} \approx 0.55 , m/s^2).
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.
A cart of a certain mass has a certain net force exerted on it and its acceleration is 4 ms2 what happens to the acceleration if the cart's mass doubled force?
If the cart's mass is doubled, its acceleration would be halved if the force remains constant. This is because acceleration is inversely proportional to mass, so an increase in mass would result in a decrease in acceleration when force is held constant.
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.
Suppose you push a cart toward the west in what direction does the force of friction push on the carts wheels?
The force of friction will push the cart to the east, which is opposite to the direction the cart is being pushed. Friction always acts in the direction opposite to the direction of motion.
How do you find the net force of a shopping cart that you already know the acceleration?
The basic equation is: force equals mass times acceleration.
Why the acceleration of the cart decreases?
The acceleration of a cart can decrease due to various factors such as friction, air resistance, or an opposing force acting in the opposite direction. As these forces counteract the initial acceleration, they cause the cart to slow down and reduce its overall acceleration.
What happens to the loaded cart if a larger force is exerted on it?
If a larger force is exerted on the loaded cart, the cart will accelerate in the direction of the force applied. This acceleration depends on the mass of the cart and the magnitude of the force. If the force is strong enough, it may even cause the cart to move uncontrollably or tip over.
Why was is necessary to have a constant force acting on the cart?
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.
When mass is added to a moving cart what happens to its acceleration?
The cart's acceleration will decrease as its mass increases. This is why you must exert progressively more force on a shopping cart to move it along as items are added to it. If you were to continue to add items to the cart but not change how hard you push it, the cart would eventually become "impossible" to push.
