![Work-Energy Theorem Recall that Work equals a change in the kinetic energy of an object ( W = ∆KE). Therefore, W = KEafter - KEbefore Also recall. - ppt download Work-Energy Theorem Recall that Work equals a change in the kinetic energy of an object ( W = ∆KE). Therefore, W = KEafter - KEbefore Also recall. - ppt download](https://slideplayer.com/13463963/80/images/slide_1.jpg)
Work-Energy Theorem Recall that Work equals a change in the kinetic energy of an object ( W = ∆KE). Therefore, W = KEafter - KEbefore Also recall. - ppt download
![Work and Energy. What is WORK? Work is equal to the amount of force it takes for an object to move a distance. Formula: Work = Force X Distance W = F. - Work and Energy. What is WORK? Work is equal to the amount of force it takes for an object to move a distance. Formula: Work = Force X Distance W = F. -](https://images.slideplayer.com/37/10751577/slides/slide_2.jpg)
Work and Energy. What is WORK? Work is equal to the amount of force it takes for an object to move a distance. Formula: Work = Force X Distance W = F. -
![homework and exercises - Can the work-energy theorem be applied in this case? - Physics Stack Exchange homework and exercises - Can the work-energy theorem be applied in this case? - Physics Stack Exchange](https://i.stack.imgur.com/VYRBi.jpg)
homework and exercises - Can the work-energy theorem be applied in this case? - Physics Stack Exchange
![Work A force that causes displacement of an object does “work” on the object Work is equal to force* times displacement [scalar] W = F x d [also W. - ppt download Work A force that causes displacement of an object does “work” on the object Work is equal to force* times displacement [scalar] W = F x d [also W. - ppt download](https://slideplayer.com/13542867/83/images/slide_1.jpg)