Speed of moving mass as it loses mass

In summary, a freight car of mass M contains a mass of sand m and is subjected to a constant horizontal force and sand leaking from the bottom at a constant rate. The changing mass of the car causes the acceleration to increase over time. To find the speed when all the sand is gone, the equation F=ma is not valid as the mass is changing. Instead, Newton's second law in its more general form, F= d(mv)/dt, must be used.
  • #1
lei123
11
0

Homework Statement


A Freight Car of Mass M contains a mass of sand m. At t=0, a constant horizontal force i applied in the direction of rolling, and at the same time a port in the bottom is opened to let the sand flow out at a constant rate dm/dt. Find the speed of the freight care when all the sand is gone. Assume the car is at rest at t=0


Homework Equations


F= ma
mv = mv - conservation of momentum?


The Attempt at a Solution


If there were no sand leaking from the bottom of the train, then the train would be accelerating at a constant acceleration because F= (M+m)a and the masses would be constant. However, the mass is changing, so the acceleration will be increasing over time. I'm just not sure how I can put these into a mathematical answer

 
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  • #2
Welcome to PF!

Hi lei123! Welcome to PF! :wink:
lei123 said:

Homework Statement


A Freight Car of Mass M contains a mass of sand m. At t=0, a constant horizontal force i applied in the direction of rolling, and at the same time a port in the bottom is opened to let the sand flow out at a constant rate dm/dt. Find the speed of the freight care when all the sand is gone. Assume the car is at rest at t=0

If there were no sand leaking from the bottom of the train, then the train would be accelerating at a constant acceleration because F= (M+m)a and the masses would be constant. However, the mass is changing, so the acceleration will be increasing over time. I'm just not sure how I can put these into a mathematical answer

Just do it step by step …

what is the mass at time t? …

what is the acceleration at time t? :smile:
 
  • #3
lei123 said:
1.


Homework Equations


F= ma
mv = mv - conservation of momentum?

The momentum is not conserved as there is an external force, and also the mass is changing. Moreover, F=ma is valid for a body of constant mass. Newton formulated his second law in a more general form, so it was valid even for changing mass:

"The change of momentum of a body is proportional to the impulse impressed on the body, and happens along the straight line on which that impulse is impressed."

F*dt = d (mv)

that is F = d(mv)/dt = v*dm/dt +m*dv/dt.


ehild
 

What is the concept of "speed of moving mass as it loses mass"?

The "speed of moving mass as it loses mass" refers to the phenomenon where the speed of a moving object decreases as it loses mass. This can occur in various contexts, such as in space where objects lose mass due to fuel consumption, or in a chemical reaction where a substance loses mass as it undergoes a transformation.

Why does the speed of a moving mass decrease as it loses mass?

The decrease in speed is due to the conservation of momentum. As the mass of the object decreases, its momentum decreases as well. Since momentum is directly proportional to velocity, the velocity of the object must also decrease in order for momentum to be conserved.

Does this phenomenon apply to all moving objects?

Yes, the principle of conservation of momentum applies to all moving objects, regardless of their mass or speed. However, the decrease in speed may not be noticeable in larger objects with a high initial velocity, whereas it may be more significant in smaller objects with a lower initial velocity.

What other factors can affect the speed of a moving mass as it loses mass?

Apart from the loss of mass, other factors that can affect the speed of a moving mass include external forces, such as friction or air resistance, and changes in direction or velocity due to collisions or interactions with other objects.

How is the speed of a moving mass as it loses mass relevant in scientific research?

The concept of the speed of a moving mass as it loses mass is relevant in various fields of science, such as astrophysics, chemistry, and engineering. Understanding this phenomenon can help researchers make accurate predictions and calculations, as well as develop new technologies and methods to control the speed of moving masses.

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