ppt - planethesser
... You can use a bar diagram to represent the situation. Write an equation that is modeled by the bar diagram. Let x represent the weight of a basketball. ...
... You can use a bar diagram to represent the situation. Write an equation that is modeled by the bar diagram. Let x represent the weight of a basketball. ...
exam2
... 26. A wire carries a current of 10 A in a direction of 30° with respect to the direction of a 0.30-T magnetic field. Find the magnitude of the magnetic force on a 0.50-m length of the wire. A) 0.75 N B) 1.5 N C) 3.0 N D) 6.0 N E) zero ...
... 26. A wire carries a current of 10 A in a direction of 30° with respect to the direction of a 0.30-T magnetic field. Find the magnitude of the magnetic force on a 0.50-m length of the wire. A) 0.75 N B) 1.5 N C) 3.0 N D) 6.0 N E) zero ...
PHYS_3342_111511
... • Diamagnetism occurs in substances where magnetic moments inside atoms all cancel out, the net magnetic moment of the atom is zero. The induced magnetic moment is directed opposite to the applied field. Diamagnetism is weakly dependent on T. • Diamagnetic (induced atomic moment) effect is overcome ...
... • Diamagnetism occurs in substances where magnetic moments inside atoms all cancel out, the net magnetic moment of the atom is zero. The induced magnetic moment is directed opposite to the applied field. Diamagnetism is weakly dependent on T. • Diamagnetic (induced atomic moment) effect is overcome ...
122A_solutions_ch25
... 25.6. Model: Use the charge model. Solve: (a) No, we cannot conclude that the wall is charged. Attractive electric forces occur between (i) two opposite charges, or (ii) a charge and a neutral object that is polarized by the charge. Rubbing the balloon does charge the balloon. Since the balloon is r ...
... 25.6. Model: Use the charge model. Solve: (a) No, we cannot conclude that the wall is charged. Attractive electric forces occur between (i) two opposite charges, or (ii) a charge and a neutral object that is polarized by the charge. Rubbing the balloon does charge the balloon. Since the balloon is r ...
Chapter 2: Magnetostatics
... • A related quantity is the permeability, defined for a paramagnet, or a soft ferromagnet in small fields as µ = B/H. Since B = µ0(H + M), it follows that µ = µ0(1 + +r). The relative permeability µr= µ/µ0 = (1 + +) ...
... • A related quantity is the permeability, defined for a paramagnet, or a soft ferromagnet in small fields as µ = B/H. Since B = µ0(H + M), it follows that µ = µ0(1 + +r). The relative permeability µr= µ/µ0 = (1 + +) ...
Chapter 16 Notes
... •Field thus points toward a negative charge and away from a positive charge •If there are two or more charges creating the field then the field at any point is the vector sum of the fields created by each of the charges •The test charge does not contribute to the field and it is too weak to cause an ...
... •Field thus points toward a negative charge and away from a positive charge •If there are two or more charges creating the field then the field at any point is the vector sum of the fields created by each of the charges •The test charge does not contribute to the field and it is too weak to cause an ...
Static Electricity StudyGuide - Ms. Gamm
... When two neutral objects are rubbed together, it is possible for one to physically remove electrons from the other – this is charging by rubbing. If one of the neutral objects becomes negatively charged, the other must become positively charged by the same amount. Charge by conduction is a con ...
... When two neutral objects are rubbed together, it is possible for one to physically remove electrons from the other – this is charging by rubbing. If one of the neutral objects becomes negatively charged, the other must become positively charged by the same amount. Charge by conduction is a con ...
lecture11
... At the North Pole, the magnetic field points to the right and the current points out of the page. The right-hand rule says that the force must point up. At the south pole, the same logic leads to a downward force. Thus the loop rotates clockwise. ...
... At the North Pole, the magnetic field points to the right and the current points out of the page. The right-hand rule says that the force must point up. At the south pole, the same logic leads to a downward force. Thus the loop rotates clockwise. ...
Lecture 8 - McMaster Physics and Astronomy
... •V is determined to within an arbitrary constant. •We can choose to set V=0 at any position (most often at “r=infinity”) •There is no absolute potential Rule: Electrostatic field lines always point to decreasing electric potential. Why? Note: electric potential V is not the same as electric potentia ...
... •V is determined to within an arbitrary constant. •We can choose to set V=0 at any position (most often at “r=infinity”) •There is no absolute potential Rule: Electrostatic field lines always point to decreasing electric potential. Why? Note: electric potential V is not the same as electric potentia ...
Electrostatic Simulation Questions
... 5. Suppose someone calculates a force of -10 Newtons for two charges. How can you tell if the charges are opposites or like charges? (hint: think if the force is attractive or repulsive) ...
... 5. Suppose someone calculates a force of -10 Newtons for two charges. How can you tell if the charges are opposites or like charges? (hint: think if the force is attractive or repulsive) ...
Semester Review for Physics
... summarize the contents of electric circuits A circuit is a set of electrical components connected so that they provide one or more complete paths for the movement of charges Any device that transforms nonelectrical energy into electrical energy, like a battery or generator, is a source of emf In the ...
... summarize the contents of electric circuits A circuit is a set of electrical components connected so that they provide one or more complete paths for the movement of charges Any device that transforms nonelectrical energy into electrical energy, like a battery or generator, is a source of emf In the ...