Power and rate of potential energy

In summary, a train with a mass of 2.0*10^5 kg travels at a constant speed of 72km/h up a straight incline. The incline has a frictional force of 1.28*10^4N and raises vertically 1m for every 100m traveled. The rate of increase per second of the train's potential energy is 400kW and the necessary power developed by the train is 256kW. The total power needed by the train is the sum of these two values.
  • #1
thoradicus
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0

Homework Statement


A train of mass 2.0*10^5 kg moves at a constant speed of 72km/h up a straight incline against a frictional force of 1.28*10^4N.The incline is such that the train raises vertically 1m for every 100m traveled along the incline.
(i)Calculate the rate of increase per second of the potential energy of the train.
(ii) THe necessary power developed by train.


Homework Equations


P.E=mgh
P=W/t
=Fv


The Attempt at a Solution


Heres how i tried to solve it..
(i)convert 72km/h to m/s we get 20m/s
for 1 second, the train travels 20m
To find height when train traveled 20m,
sin^-1(1/100)=0.573 degrees
sin0.573=x/20
x=0.2m
so,

P=mgh/t
=(2x10^5)(10)(.2)/1s
=400kW

(ii)P=Fv
Since there is constant velocity, F-1.28*10^4=0
F=above N
P=Fv
=(1.28*10^4)(20)
=256kW

is this correct?
 
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  • #2
What about power needed to move train?
 
  • #3
oh wait, so the total power needed by the train is just adding up the two anwsers above?
 
  • #4
Yes.
 
  • #5
oh ok thx
 

Related to Power and rate of potential energy

What is potential energy?

Potential energy is the energy that an object possesses due to its position or configuration. It is stored energy that has the potential to do work.

How is potential energy related to power and rate?

The power of potential energy is the rate at which it can be converted into other forms of energy, such as kinetic energy. The rate of potential energy is a measure of how quickly it is changing.

How is potential energy calculated?

The formula for potential energy is PE = mgh, where m is the mass of the object, g is the acceleration due to gravity, and h is the height or distance from a reference point.

What are some examples of potential energy?

Some examples of potential energy include a stretched spring, a raised weight, and a charged battery. These objects have the potential to do work when released or used.

How does potential energy affect daily life?

Potential energy plays a role in many aspects of daily life, from the energy stored in food that fuels our bodies, to the potential energy stored in dams that is converted into electricity. It is also important in understanding the behavior of objects and systems in our environment.

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