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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.
When calculating the force on the cart using the mass times gravity why isn't the mass of cart included?
The mass of the cart is included in the calculation when multiplying mass by gravity to find the force acting on it. The equation F = m * g already takes into account the mass of the cart, so there is no need to include it separately in the calculation.
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).
What are the possible answers for a lab experiment involving a cart on a ramp?
The possible answers for a lab experiment involving a cart on a ramp could include measuring the cart's acceleration, determining the effect of different ramp angles on the cart's speed, analyzing the relationship between the cart's mass and its motion on the ramp, and investigating the impact of friction on the cart's movement.
A cart loaded with groceries has more inertia because it has more mass then the empty cart true or false?
True. Inertia is directly proportional to mass, so the cart with groceries, having more mass, will also have more inertia compared to the empty cart.
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.
When calculating the force on the cart using the mass times gravity why isn't the mass of cart included?
The mass of the cart is included in the calculation when multiplying mass by gravity to find the force acting on it. The equation F = m * g already takes into account the mass of the cart, so there is no need to include it separately in the calculation.
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.
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).
What are the possible answers for a lab experiment involving a cart on a ramp?
The possible answers for a lab experiment involving a cart on a ramp could include measuring the cart's acceleration, determining the effect of different ramp angles on the cart's speed, analyzing the relationship between the cart's mass and its motion on the ramp, and investigating the impact of friction on the cart's movement.
A cart loaded with groceries has more inertia because it has more mass then the empty cart true or false?
True. Inertia is directly proportional to mass, so the cart with groceries, having more mass, will also have more inertia compared to the empty cart.
Why is it harder to get a cart full of potatoes moving than one that is empty?
because a cart full of potatoes has more mass
Cart is rolling down a special ramp where there is no friction at all What will happen if the amount of mass on the cart is increased?
If the mass of the cart is increased, the kinetic energy of the cart will also increase as it rolls down the ramp. The velocity of the cart will increase as well, since the kinetic energy is directly proportional to both mass and velocity squared.
When calculating the force on the cart using mass times gravitywhy isn't the mass of cart included?
When calculating the force on the cart using mass times gravity, the force is given by the formula F = m * g, where 'm' is the mass of the object that is being acted upon by gravity. In this case, the mass of the cart is included in the calculation because it is the mass of the object experiencing the force due to gravity.
Will the cart roll faster with or without mass?
If the cart is rolling downhill it will roll faster with mass, but on level ground or uphill it will roll faster without mass.
the red cart is at rest with a mass of 0.6kg. The blue cart is moving towers the red cart with a velocity of 2.5 m/s and it has a mass of 0.8kg. After a collision between the two carts what is the velocity of the red cart?
Lolz
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?
Use Newton's Second Law, F=ma. Solving for a: a = F/m (acceleration = force / mass). If the force is in Newton, and the mass in kilograms, acceleration will be in meters/second2.
