Introduction to PhysicsPrentice-Hall, 1955 - 780 σελίδες For college students. |
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Σελίδα 313
... difference in potential ( which we shall hereafter call V ) , between these two points is given by V = q / rq / s . This difference in potential is the amount of work done when a unit positive charge goes from sphere A , where its ...
... difference in potential ( which we shall hereafter call V ) , between these two points is given by V = q / rq / s . This difference in potential is the amount of work done when a unit positive charge goes from sphere A , where its ...
Σελίδα 409
... difference is not changing at points a and c on the time axis , and that its rate of change is maximum at points b ... difference is a maxi- mum ( Fig . 18.13 ) , the current must be in the opposite direction to the potential difference ...
... difference is not changing at points a and c on the time axis , and that its rate of change is maximum at points b ... difference is a maxi- mum ( Fig . 18.13 ) , the current must be in the opposite direction to the potential difference ...
Σελίδα 410
... difference IR across the resistance will be represented by the vector v , since it is in phase with the current . The potential difference across the condenser is properly represented by the vector v ' , since the current through the ...
... difference IR across the resistance will be represented by the vector v , since it is in phase with the current . The potential difference across the condenser is properly represented by the vector v ' , since the current through the ...
Περιεχόμενα
Measurement and Problem Solving | 1 |
Scalar and Vector Quantities | 16 |
Equilibrium | 28 |
Πνευματικά δικαιώματα | |
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a-particle acceleration angle angstroms angular atom axis body centimeter Chapter circuit cm/sec coefficient coil compute condenser constant cylinder density determined diameter direction displacement distance dynes earth electromotive force electron electron volts equals equation ergs fission focal length frequency friction glass gram heat helium horizontal hydrogen ideal mechanical advantage increases index of refraction indicated induction intensity ions isotope joules kinetic energy lens light lines liquid magnetic field mass measured mechanical miles/hr mirror molecules momentum move neutrons nucleus object ohms orbit particle physicist plane plate pole positive charge potential difference potential energy pressure produce proton quantity radiation radioactive radius rays refraction resistance result rotation Sample Problem shown in Fig spectrum string substance surface temperature tion transverse wave tube unit vapor velocity vib/sec vibration volts volume wave length wave motion wire x-rays zero