Physics 2. Angular Momentum. Prepared by Vince Zaccone For Campus Learning Assistance Services at UCSB

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Isaac Marshall
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1 Phyic Angular Momentum For Campu earning

2 Angular Momentum Thi i the rotational equivalent of linear momentum. t quantifie the momentum of a rotating object, or ytem of object. To get the angular momentum, we will tart with linear momentum: p m v Thi i the formula for linear momentum For Campu earning

3 Angular Momentum Thi i the rotational equivalent of linear momentum. t quantifie the momentum of a rotating object, or ytem of object. To get the angular momentum, we will tart with linear momentum: p m v Thi i the formula for linear momentum r p Jut like torque, we do a cro-product with the radiu to get the angular quantity When the object i rotating about an axi of ymmetry we can alo ue thi formula Note that momentum i a vector quantity. Ue your right-hand-rule for determining the direction. t will point the ame direction a the angular velocity (perpendicular to r and p. For Campu earning

4 v ( r m v Angular Momentum Conider the imple cae of a mall ma (m tied to a tring with radiu r. f the ma i wung around in a circle it will have ome angular velocity. Notice that it will alo have linear velocity (tangential to the circle. The relationhip we know for thee i v=r. m We can ue thi idea to find a ueful alternate formula for angular momentum. r The point ma will have a moment of inertia: m r Subtituting into the tandard formula: (m pointm a r r We can ue thi formula when we have a point ma with a given linear velocity at ome ditance from a pivot point or axi of rotation. For Campu earning

5 Angular Momentum We hould have ome formula relating angular momentum to torque (jut like we have a formula relating linear momentum to force: d dt Thi ay that any time a torque i applied, there will be a correponding change in angular momentum. For Campu earning

6 Angular Momentum ike linear momentum, angular momentum i conerved. We will ue thi concept in everal type of problem. f f i i Thi i a formula for conervation of angular momentum. For Campu earning

7 Example: A 8 kg child i itting on the edge of a 45 kg merry-go-round of radiu.5 m while it i pinning at a rate of 3.7 rpm. f the child move to the center, how fat will it be pinning? Aume the merry-go-round i a uniform cylinder. initial final r=.5m For Campu earning

8 Example: A 8 kg child i itting on the edge of a 45 kg merry-go-round of radiu.5 m while it i pinning at a rate of 3.7 rpm. f the child move to the center, how fat will it be pinning? Aume the merry-go-round i a uniform cylinder. We can ue conervation of momentum for thi one. nitially both the merry-go-round and the child contribute to the total angular momentum. However, once the child i at the center, he no longer ha angular momentum (r=0. initial final r=.5m For Campu earning

9 Example: A 8 kg child i itting on the edge of a 45 kg merry-go-round of radiu.5 m while it i pinning at a rate of 3.7 rpm. f the child move to the center, how fat will it be pinning? Aume the merry-go-round i a uniform cylinder. We can ue conervation of momentum for thi one. nitially both the merry-go-round and the child contribute to the total angular momentum. However, once the child i at the center, he no longer ha angular momentum (r=0. f i We need the total angular momentum of the ytem, ncluding both the child and the dik. initial dik,f dik,f dik,i dik,i girl,i girl,i final r=.5m For Campu earning

10 Example: A 8 kg child i itting on the edge of a 45 kg merry-go-round of radiu.5 m while it i pinning at a rate of 3.7 rpm. f the child move to the center, how fat will it be pinning? Aume the merry-go-round i a uniform cylinder. We can ue conervation of momentum for thi one. nitially both the merry-go-round and the child contribute to the total angular momentum. However, once the child i at the center, he no longer ha angular momentum (r=0. f i We need the total angular momentum of the ytem, ncluding both the child and the dik. initial dik,f dik,f dik,i dik,i girl,i girl,i final r=.5m The initial angular velocity i given in rpm, and we can leave it in thoe unit for thi type of problem. For Campu earning

11 Example: A 8 kg child i itting on the edge of a 45 kg merry-go-round of radiu.5 m while it i pinning at a rate of 3.7 rpm. f the child move to the center, how fat will it be pinning? Aume the merry-go-round i a uniform cylinder. We can ue conervation of momentum for thi one. nitially both the merry-go-round and the child contribute to the total angular momentum. However, once the child i at the center, he no longer ha angular momentum (r=0. f i We need the total angular momentum of the ytem, ncluding both the child and the dik. initial dik,f dik,f dik,i dik,i girl,i girl,i final r=.5m The initial angular velocity i given in rpm, and we can leave it in thoe unit for thi type of problem. ( m r dik dik dik,f ( m r dik dik ( i (m r girl girl ( i ( 45kg dik,f (.5m 5.rpm dik,f ( 45kg (.5m (3.7rpm (8kg (.5m (3.7rpm For Campu earning

12 Example: A helicopter rotor blade can be conidered a long thin rod, a hown in figure below. Each of the three rotor helicopter blade i = 3.6 m long and ha a ma of m = 50 kg. While tarting up, the motor provide a contant torque for minute, and the blade peed up from ret to 85 rad/. How much torque i produced by the motor? How fat i the tip of each blade moving? For Campu earning

13 Example: A helicopter rotor blade can be conidered a long thin rod, a hown in figure below. Each of the three rotor helicopter blade i = 3.6 m long and ha a ma of m = 50 kg. While tarting up, the motor provide a contant torque for minute, and the blade peed up from ret to 85 rad/. How much torque i produced by the motor? How fat i the tip of each blade moving? We will ue angular momentum for thi one. Since we have a contant torque, we imply need to find the change in angular momentum and divide by time. t For Campu earning

14 Example: A helicopter rotor blade can be conidered a long thin rod, a hown in figure below. Each of the three rotor helicopter blade i = 3.6 m long and ha a ma of m = 50 kg. While tarting up, the motor provide a contant torque for minute, and the blade peed up from ret to 85 rad/. How much torque i produced by the motor? How fat i the tip of each blade moving? We will ue angular momentum for thi one. Since we have a contant torque, we imply need to find the change in angular momentum and divide by time. t For Campu earning

15 Example: A helicopter rotor blade can be conidered a long thin rod, a hown in figure below. Each of the three rotor helicopter blade i = 3.6 m long and ha a ma of m = 50 kg. While tarting up, the motor provide a contant torque for minute, and the blade peed up from ret to 85 rad/. How much torque i produced by the motor? How fat i the tip of each blade moving? We will ue angular momentum for thi one. Since we have a contant torque, we imply need to find the change in angular momentum and divide by time. t We need to find the moment of inertia for the blade. There are 3 of them, and each one i a long thin rod. rod M 3 For Campu earning

16 Example: A helicopter rotor blade can be conidered a long thin rod, a hown in figure below. Each of the three rotor helicopter blade i = 3.6 m long and ha a ma of m = 50 kg. While tarting up, the motor provide a contant torque for minute, and the blade peed up from ret to 85 rad/. How much torque i produced by the motor? How fat i the tip of each blade moving? We will ue angular momentum for thi one. Since we have a contant torque, we imply need to find the change in angular momentum and divide by time. t We need to find the moment of inertia for the blade. There are 3 of them, and each one i a long thin rod. rod M 3 3( 3 M (50kg(3.6m (85 rad 65,40 kgm For Campu earning

17 Example: A helicopter rotor blade can be conidered a long thin rod, a hown in figure below. Each of the three rotor helicopter blade i = 3.6 m long and ha a ma of m = 50 kg. While tarting up, the motor provide a contant torque for minute, and the blade peed up from ret to 85 rad/. How much torque i produced by the motor? How fat i the tip of each blade moving? We will ue angular momentum for thi one. Since we have a contant torque, we imply need to find the change in angular momentum and divide by time. t We need to find the moment of inertia for the blade. There are 3 of them, and each one i a long thin rod. rod M 3 3( 3 M (50kg(3.6m (85 rad 65,40 kgm Since the blade tarted from ret, thi i Δ. 65,40 0 kgm,377n m For Campu earning

18 Example: A helicopter rotor blade can be conidered a long thin rod, a hown in figure below. Each of the three rotor helicopter blade i = 3.6 m long and ha a ma of m = 50 kg. While tarting up, the motor provide a contant torque for minute, and the blade peed up from ret to 85 rad/. How much torque i produced by the motor? How fat i the tip of each blade moving? We will ue angular momentum for thi one. Since we have a contant torque, we imply need to find the change in angular momentum and divide by time. t We need to find the moment of inertia for the blade. There are 3 of them, and each one i a long thin rod. rod M 3 To find the peed of the blade tip, imply ue v=r : v v (3.6m 306 m (85 rad 3( 3 M (50kg(3.6m (85 rad 65,40 kgm Since the blade tarted from ret, thi i Δ. 65,40 0 kgm,377n m For Campu earning

Physics 6A. Angular Momentum. Prepared by Vince Zaccone For Campus Learning Assistance Services at UCSB

Physics 6A. Angular Momentum. Prepared by Vince Zaccone For Campus Learning Assistance Services at UCSB Phyic 6A Angular Momentum For Campu earning Angular Momentum Thi i the rotational equivalent of linear momentum. t quantifie the momentum of a rotating object, or ytem of object. f we imply tranlate the