To find the initial velocity from the work done on a system, you can use the work-energy principle. The work done on the system is equal to the change in kinetic energy of the system. By equating the work done to the change in kinetic energy and solving for the initial velocity, you can find the initial velocity of the system.
Work = force x distance.
Yes, we do use Louis Pasteur's work in our work today, because he would experiment and use microscopes to find disease, and that what is done today to find if something has germs in it.
The power of an object is determined by the rate at which work is done on or by the object. It can be calculated by dividing the work done by the time it took to do that work. The formula for power is: Power = Work / Time.
Write down what you have done to look for work since you claimed unemployment benefit.
You cannot. You do not have the necessary information.
The work done in raising the backpack can be calculated as the change in potential energy. Using the formula, work = force x distance, we find that the work done is approximately 740 Joules.
Work done can be calculated using the formula: work = force * distance * cos(theta), where theta is the angle between the force and the direction of movement. The time interval does not play a direct role in determining work done. However, if you know the power (work done over time), you can calculate work done by multiplying power by time.
There are a considerable number - Its advisable to seek out at least 3 and look at quote for the work you want done. Ask for references of work they have done already or site s they say they have done so you can judge the work
First you have to find the force F=(mass/weight of object)*(9.8) Once you find force Work=(Force)*(Distance) Your answer will be in joules
Work Done = Fs cos 0 OR- Work done by an expanding gas against a constant pressure would be w=F*d (Recall that F=PA; from P=F/A) W= (PA)d (volume = area*d) Therefore Work done = p (change in volume)
You can find the output force by dividing the work done by the input force by the efficiency. This formula is: Output Force = Work / (Input Force * Efficiency).