Introduction to PhysicsPrentice-Hall, 1955 - 780 σελίδες For college students. |
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Σελίδα 276
... square centimeter per second when A is in centi- meters , is in centimeters per second , and f is the number of vibrations per second . The intensity will be in watts per square centimeter when the right side of the equation is divided ...
... square centimeter per second when A is in centi- meters , is in centimeters per second , and f is the number of vibrations per second . The intensity will be in watts per square centimeter when the right side of the equation is divided ...
Σελίδα 355
... square centimeter . Entirely from choice , it has been agreed that a magnetic field of unit intensity possesses 1 line of force per square centimeter . Thus , the intensity of a given field may be expressed as 10 lines per square ...
... square centimeter . Entirely from choice , it has been agreed that a magnetic field of unit intensity possesses 1 line of force per square centimeter . Thus , the intensity of a given field may be expressed as 10 lines per square ...
Σελίδα 374
... square centimeter more often than H in oersteds or lines of force per square centimeter . Now to return to Fig . 21.1 . A horizontal magnetic field produced by the poles N and S is directed from left to right . The lines of induction ...
... square centimeter more often than H in oersteds or lines of force per square centimeter . Now to return to Fig . 21.1 . A horizontal magnetic field produced by the poles N and S is directed from left to right . The lines of induction ...
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