Tangential velocity Angular velocity
... • If linear velocity is held constant, increasing the radius requires decreases this force. • If rotational velocity is held constant, increasing the radius increases the force. ...
... • If linear velocity is held constant, increasing the radius requires decreases this force. • If rotational velocity is held constant, increasing the radius increases the force. ...
PPT
... ACT: Force on loop (cont’d) A rectangular loop of wire is carrying current as shown. There is a uniform magnetic field parallel to the sides a-b and c-d. c ...
... ACT: Force on loop (cont’d) A rectangular loop of wire is carrying current as shown. There is a uniform magnetic field parallel to the sides a-b and c-d. c ...
ExamView - S15--Physics Q4 Torque.tst
... 3. A meter stick is balanced at the 50.0-cm mark. You tie a 10.0-N weight at the 15.0-cm mark. Where should a 30.0-N weight be placed so the meter stick will again be balanced? a. 10.0-cm mark b. 30.0-cm mark c. 15.0-cm mark d. 25.0-cm mark e. 61.7-cm mark 4. What are the SI units for momentum? a. k ...
... 3. A meter stick is balanced at the 50.0-cm mark. You tie a 10.0-N weight at the 15.0-cm mark. Where should a 30.0-N weight be placed so the meter stick will again be balanced? a. 10.0-cm mark b. 30.0-cm mark c. 15.0-cm mark d. 25.0-cm mark e. 61.7-cm mark 4. What are the SI units for momentum? a. k ...
PPT
... ACT: Force on loop (cont’d) A rectangular loop of wire is carrying current as shown. There is a uniform magnetic field parallel to the sides a-b and c-d. c ...
... ACT: Force on loop (cont’d) A rectangular loop of wire is carrying current as shown. There is a uniform magnetic field parallel to the sides a-b and c-d. c ...
Lecture Notes
... SLIDE 13: We will use a simple illustration to explain these concepts. Can you figure out what is depicted on the slide? It is a door, viewed from the top. The circle represents the hinge, or the axis of rotation, and the bar represents the door. Two forces are represented as acting on the door. On ...
... SLIDE 13: We will use a simple illustration to explain these concepts. Can you figure out what is depicted on the slide? It is a door, viewed from the top. The circle represents the hinge, or the axis of rotation, and the bar represents the door. Two forces are represented as acting on the door. On ...
Chapter 5: Using Newton`s Laws
... • Mini Exam – 25 minutes • Finish friction example from Tuesday • Spring forces • Newton’s laws and circular motion • Demonstrations and examples + iclicker problem ...
... • Mini Exam – 25 minutes • Finish friction example from Tuesday • Spring forces • Newton’s laws and circular motion • Demonstrations and examples + iclicker problem ...
