南开大学：《力学》课程教学资源（PPT课件，英文讲稿）Chapter 3 Work and Energy

{F·dr =f f(r)r.(drr+rdee) =f f(r)dr=rnf(r)dr-fra f(r)dr(1)(II)=0Independent of pathElastic force: F(x) = -kx xmMGravitational force: F(r) = -GOnly depends on["aF-dr = U(a)-U(b)position""!

 F dr       = f (r)r(drr+ rd  ) =  f (r)dr (I) (II) =  −  ra rb ra rb f (r)dr f (r)dr = 0  Only depends on “ position”! Independent of path: Elastic force: Gravitational force: ^ F(x) = −kx x  ^ ( ) r r mM F r = −G  F dr U(a) U(b) a b r r   = −    

*How about Coriolis force? <imply the origin of inertia?>Introduce a function of position?U()U(r)+CF.dr =-dU(r)1-D:dU(x) =F not unique.F.dx =-dU(x)口dxGive U(x): F=?1dU(x)kx?=-kxU(x) =2dx“O"point: x-0, Uo=0. dU = -F.dx

Introduce a function of position: How about Coriolis force? <imply the origin of inertia?> F dr dU(r)     = − U(r) →U(r) +C   1-D: F dx dU(x) x = − Fx dx dU x − = ( ) Give U(x): F=? 2 2 1 U(x) = k x k x dx dU x = − ( ) “O” point: x=0, =0. U0 dU F dx   = −  not unique

uodU=-F.dx=kxdxkx2Gravitational forceUOr8mjm2mjm2dUdrdr2T.2mim2GrU(r) = -G m,m21*In modern Physics F() (field) is replaced by U(r)U(r) describe a field

0 0 0 2 2 1 dU F dx kxdx kx U x U U = −  =  = −   Gravitational force: dr r m m rdr G r m m dU G r r U U r r = − =       2 1 2 0 2 1 2 ˆ  r m m G 1 2 = − r m m U r G 1 2 ( ) = − In modern Physics F(r)    (field) is replaced by U(r). U(r) describe a field

Advanced Remarks(1).Partial derivativef(x,y,z)afafafdzdfdx+dyOzOxoyaaK(2) √+Ozxoy(3). Gradient of Φ:aaa@+kVp(x,y,2)=iD?Ozaxoy

Advanced Remarks: (1).Partial derivative f(x,y,z) dz z f dy y f dx x f df   +   +   = (2). z k y j x i   +   +    =         z k y j x x y z i   +   +    =    ( , , ) (3). Gradient of Φ:

aa0V.FFDivergence of F:HOOz1ayxkijaaaCurl of F:axOyOzV×F=FFF(4) fF.d=0 V×F=0Curl-less forceJJ(V×F)-ds =fF-drmS

x y Fz z F y F x F   +   +    =  Divergence of F:  F =  i j k x  y  z  Fx Fy Fz Curl of F: (4).  = 0  F dr     F = 0 Curl-less force     F ds = F dr s     ( )