Massachusetts Institute of Technology Department of Electrical
... of constant energy product. This quantity is unfortunately named, for although it has the same units as energy it represents real energy in only a fairly general sense. It is the product of flux density and field intensity. As you already know, there are three commonly used systems of units for magn ...
... of constant energy product. This quantity is unfortunately named, for although it has the same units as energy it represents real energy in only a fairly general sense. It is the product of flux density and field intensity. As you already know, there are three commonly used systems of units for magn ...
OARS Test for Lesson 4: 4th Grade Science: "To Attract or Not to
... 8. If the amount of electricity flowing through the insulated wire in an electromagnet is decreased, then there will be a(n) A increase in the magnetic strength of the electromagnet. B ...
... 8. If the amount of electricity flowing through the insulated wire in an electromagnet is decreased, then there will be a(n) A increase in the magnetic strength of the electromagnet. B ...
Chapter_4_Lecture_PowerPoint
... If any sinusoidal voltage or current has zero average value, is its average power equal to zero? Clearly, the answer must be no. A useful measure of the voltage of an AC waveform is the rms value of the signal ...
... If any sinusoidal voltage or current has zero average value, is its average power equal to zero? Clearly, the answer must be no. A useful measure of the voltage of an AC waveform is the rms value of the signal ...
test 2 review
... The transformer in the figure below can be assumed to be ideal. If I connected an AC voltage source to the primary coil (left) what would the equivalent impedance of the primary be? ...
... The transformer in the figure below can be assumed to be ideal. If I connected an AC voltage source to the primary coil (left) what would the equivalent impedance of the primary be? ...
ELEMENTS OF ELECTRO- MECHANICAL ENERGY CONVERSION
... uniform air-gap length for the machine. The diagram represents a twopole machine. Axis of coil ‘a’ may be taken as reference, with respect to which the rotor-coil axis makes an angle of θ, at a particular instant of time. For a continuous rotation of the rotor at ω radians / sec, θ = ωt. Coil‘b’-axi ...
... uniform air-gap length for the machine. The diagram represents a twopole machine. Axis of coil ‘a’ may be taken as reference, with respect to which the rotor-coil axis makes an angle of θ, at a particular instant of time. For a continuous rotation of the rotor at ω radians / sec, θ = ωt. Coil‘b’-axi ...
electricity
... If I --------------------------------------------- so that N is now ---------------- S, I'm sure you are very familiar with the fact they attract -------------------------- like this. This again can be shown ......... the diagram. Here the ----------------------------now running .....N .... S are, s ...
... If I --------------------------------------------- so that N is now ---------------- S, I'm sure you are very familiar with the fact they attract -------------------------- like this. This again can be shown ......... the diagram. Here the ----------------------------now running .....N .... S are, s ...
Displays
... Discrete positions shall be defined within the tank,with corresponding values that should be programmed in the Chunxil to achieve such positions. ...
... Discrete positions shall be defined within the tank,with corresponding values that should be programmed in the Chunxil to achieve such positions. ...
Lecture 21: Alternating Current Circuits and EM Waves
... EM Waves by an Antenna Oscillating electric dipole First consider static electric field produced by an electric dipole as shown in Figs. (a) Positive (negative) charge at the top (bottom) (b) Negative (positive) charge at the top (bottom) Now then imagine these two charge are moving up and down a ...
... EM Waves by an Antenna Oscillating electric dipole First consider static electric field produced by an electric dipole as shown in Figs. (a) Positive (negative) charge at the top (bottom) (b) Negative (positive) charge at the top (bottom) Now then imagine these two charge are moving up and down a ...
Chapter 31
... output voltage always has the same polarity It also pulsates with time To obtain a steady DC current, commercial generators use many coils and commutators distributed so the pulses are out of phase ...
... output voltage always has the same polarity It also pulsates with time To obtain a steady DC current, commercial generators use many coils and commutators distributed so the pulses are out of phase ...
Lecture19
... Faraday's Law (integral form) relates voltage, v(t), induced in a loop of wire to the time derivative of the total flux passing through the winding: d φ (t ) v(t ) = − ('sign' is given by Lenz's law.) dt Ampere's Law (integral form) relates magnetomotive force, M (t), induced in magnetic core to the ...
... Faraday's Law (integral form) relates voltage, v(t), induced in a loop of wire to the time derivative of the total flux passing through the winding: d φ (t ) v(t ) = − ('sign' is given by Lenz's law.) dt Ampere's Law (integral form) relates magnetomotive force, M (t), induced in magnetic core to the ...
Dynamic Braking of Induction Motors
... Capacitor Braking Method • Disconnect the motor from the line and connect a capacitor bank to the stator terminals. • Motor behaves as a self-excited induction generator. • Rotational energy is dissipated as I2R losses in the rotor and stator windings. • Increase the effect by adding resistor load. ...
... Capacitor Braking Method • Disconnect the motor from the line and connect a capacitor bank to the stator terminals. • Motor behaves as a self-excited induction generator. • Rotational energy is dissipated as I2R losses in the rotor and stator windings. • Increase the effect by adding resistor load. ...
Faraday
... deflection of the galvanometer's needle, and Lenz's Law, determine which side of your magnet is the North Pole. Is it side one or side two? ________ Now use the compass provided to determine if you were right about this determination. ...
... deflection of the galvanometer's needle, and Lenz's Law, determine which side of your magnet is the North Pole. Is it side one or side two? ________ Now use the compass provided to determine if you were right about this determination. ...
Lab 8 - Faraday
... deflection of the galvanometer's needle, and Lenz's Law, determine which side of your magnet is the North Pole. Is it side one or side two? ________ Now use the compass provided to determine if you were right about this determination. ...
... deflection of the galvanometer's needle, and Lenz's Law, determine which side of your magnet is the North Pole. Is it side one or side two? ________ Now use the compass provided to determine if you were right about this determination. ...
Coilgun
A coilgun (or Gauss rifle, in reference to Carl Friedrich Gauss, who formulated mathematical descriptions of the magnetic effect used by magnetic accelerators) is a type of projectile accelerator consisting of one or more coils used as electromagnets in the configuration of a linear motor that accelerate a ferromagnetic or conducting projectile to high velocity. In almost all coilgun configurations, the coils and the gun barrel are arranged on a common axis.Coilguns generally consist of one or more coils arranged along a barrel, so the path of the accelerating projectile lies along the central axis of the coils. The coils are switched on and off in a precisely timed sequence, causing the projectile to be accelerated quickly along the barrel via magnetic forces. Coilguns are distinct from railguns, as the direction of acceleration in a railgun is at right angles to the central axis of the current loop formed by the conducting rails. In addition, railguns usually require the use of sliding contacts to pass a large current through the projectile or sabot but coilguns do not necessarily require sliding contacts. Whilst some simple coilgun concepts can use ferromagnetic projectiles or even permanent magnet projectiles, most designs for high velocities actually incorporate a coupled coil as part of the projectile.