Where did you get this equation?sanderalan said:E = (1/2) * (m) * (delta v ^ 2)
https://engineering.stackexchange.c...:text=And V=rω=d,of energy is not significant.jbriggs444 said:Where did you get this equation?
The equation is wrong. So let's look at that source to see whether you are misinterpreting it.sanderalan said:
What aboutjbriggs444 said:The equation is wrong. So let's look at that source to see whether you are misinterpreting it.
As I suspected, that equation does not appear on the page you reference.
The KE is definitely dependent on the mass. Is there more to the question?sanderalan said:Homework Statement:: Energy recovered from a regenerative braking system. Where the maximum regenerative braking is 75% at 1.5g from 100 km/h for 0.5 seconds
Relevant Equations:: E = (1/2) * (m) * (delta v ^ 2)
So the energy can be calculated if the mass is present, but it is not given. Is there a way to calculate the regenerated energy with the given information?
as @scottdave has noted, ##{v_1}^2 - {v_2}^2## is different from ##(v_1-v_2)^2##.sanderalan said:What about
"The linear energy change is equal to:
Ke linear change =(1/2)mv1^2−(1/2)mv2^2"??
Depending on the way in which you are required to submit your answer, you could say "if the mass is m then the energy recouped is. ...m."sanderalan said:Thanks! Seems like the question was not complete in this case, as no mass was given
A regenerative braking system works by using the kinetic energy produced when a vehicle brakes to generate electricity. This electricity is then stored in a battery and can be used to power the vehicle's motor, reducing the amount of energy needed from the engine.
Using regenerative braking can significantly increase the efficiency of a vehicle, as it allows for the recovery of energy that would otherwise be lost during braking. This can result in improved fuel economy and reduced emissions.
The amount of energy that can be recovered from a regenerative braking system depends on various factors, such as the weight and speed of the vehicle, as well as the efficiency of the system itself. In general, it is estimated that regenerative braking systems can recover anywhere from 10-25% of the energy normally lost during braking.
Regenerative braking systems can be used in a variety of vehicles, including cars, buses, trains, and even bicycles. However, the effectiveness of the system may vary depending on the specific vehicle and its usage patterns.
One limitation of regenerative braking is that it is most effective in stop-and-go driving situations, where there are frequent opportunities to brake and recover energy. It may not be as effective in highway driving, where there are fewer braking opportunities. Additionally, regenerative braking systems can add weight and complexity to a vehicle, which may impact its performance and cost.