Energy Transfer by Work·Definitions- Energy transfer associated with force acting through a distance- Energy crossing the boundary of a closed system that is not heatmust bework系统与外界相互作用而传递的能量,其全部效果为使外界物体改变宏观运动状态。包含两个必要条件:1)确定有力作用在边界上,即系统与外界有相互作用,且力的不平衡势差无限小:2)系统边界发生位移,即外界物体改变宏观运动状态。二者缺一不可
Energy Transfer by Work • Definitions – Energy transfer associated with force acting through a distance – Energy crossing the boundary of a closed system that is not heat must be work 系统与外界相互作用而传递的能量,其全部效果为使外界 物体改变宏观运动状态。 包含两个必要条件: 1) 确定有力作用在边界上,即系统与外界有相互作用,且力 的不平衡势差无限小; 2) 系统边界发生位移,即外界物体改变宏观运动状态。 二者缺一不可
Energy Transfer by Work例1:拔掉销钉后,系统向真空膨胀VacuumO系统是否做功?例2:刚性容器,加热后系统内压力升高,系统是否向外做功?DQ
Energy Transfer by Work 例1: p Vacuum 拔掉销钉后,系统向真空膨胀, 系统是否做功? 例2: p Q 刚性容器,加热后系统内压力 升高,系统是否向外做功?
Energy Transfer by Work.Units- N·m or J; usually kJ in Sl.Workexamples- Boundary work (e.g., a gas working against amoving piston)closedsystem- Shaft work (e.g., a rotating crankshaft on a motor)opensystem
Energy Transfer by Work • Units – or J; usually kJ in SI • Work examples – Boundary work (e.g., a gas working against a moving piston) closed system – Shaft work (e.g., a rotating crankshaft on a motor) open system N m
Energy Transfer by WorkSW = Fdx = p·Adx = pdVProcess pathsW=("pdVWdA=PdV示功图IVdvW8W =W12 +W2 -WWorkProcess function功是过程量
Energy Transfer by Work δW F x p A x p V = = = d d d 2 2 1 1 W W p V = = δ d 2 12 2 1 1 W W W W W = = − δ Work-Process function 功是过程量 示功图
Energy Transferby Work. Work per unit massWW=m? Sign ConventionW > 0: work done by the systemW < o: work done on the systemW=0: no work
Energy Transfer by Work • Work per unit mass • Sign Convention W > 0: work done by the system W < 0: work done on the system W = 0: no work = = 2 1 p v m W w d