i have never heard of a commentator in a motor, think you may be mistaking that word. inside an electric motor you have a stator and windings, as polarity changes it spins the stator and the brushes transfer the charge to the device being used..
I think they meant commutator. If you break an electric motor down to 2 parts, you have a commutator and an armature. the armature being the shaft that basically floats on bearings, and the commutator being the hull where the stator is. (and there is such thing as a brushless electric motor.) the stator does not spin. that is the term used for the magnets that pull the electric field supplied by the brushes. To make even more simple, imagine a shaft floating on bearings with 2 magnets on it, one positive and one negative ( the armature) and this shaft is inside of a ring of electricity the is flowing in one direction, its going to pull the negative and push the positive (the commutator) and cause the armature to spin.
I work for the company that makes the NLE. I can't give you the questions but the answers to the 40 questions are: A,D,C,B,B,D,C,A,B,D,C,C,B,A,D,A,A,D,C,B,C,B,D,B,C,D,A,A,A,D,B,A,D,C,C,D,A,B,C,D Good Luck! DO NOT listen to this guy^ he doesnt know the answers and you didn't give him which course like latin 1 or latin 2 or 3
#include<iostream.h> main() { int C,D,E; cout<<"Number at location C="; cin>>C; cout<<"Number at location D="; cin>>D; E=C; C=D; D=E; cout<<"New Number At Location C="<<C<<endl; cout<<"New Number At Location D="<<D<<endl; }
High d or low c
d= c/100; c= c-d*100; c=245 --> d=2, c=45
Yes, a&b|c&d means (a&b)|(c&d), just like a&&bc&&d means (a&&b)(c&&d)
a general purpose D-C motor can be reversed by changing the polarity of either the armature or the field but not both
Here are the main differences between an electric motor and an electric generator: Functionality: Electric motors convert electrical energy into mechanical or kinetic energy, whereas electric generators convert mechanical energy into electrical energy. Usage: Electric motors are used in fans, mixers, washing machines, and other household appliances, whereas electric generators are used as power backup during outages, in construction sites, mining areas, and agriculture. Fleming’s Rule: Electric motors follow Fleming’s left-hand rule, whereas electric generators follow Fleming’s right-hand rule. Principle: The working principle of a motor is based on the current-carrying conductor, whereas the working principle of a generator is based on electromagnetic induction. Current: In motors, the current has to be supplied to armature windings, whereas in generators, armature windings produce current. EMF: Electric motors give out back EMF, whereas electric generators produce induced EMF.
D D# E C E C E C C D D# E C D E BD C D D# E C E C E C AG F# A C E D C A D D D# E C E C E C C D D# E C D E B D C C D C E C D E C D C E C D E C D C E C D E E B D C #=sharp
analyst, interpreter, critic, pundit, connoisseur :D
d2/(d - c) + c2/(c - d) = d2/(d - c) - c2/(d - c) = (d2 - c2)/(d - c) = (d + c)(d - c)/(d - c) = d + c
C C D C A F A C D D C A G C C C C D C A G F A C D D D C C A G C F Bb Bb D C D D A G G BbA C C F A C C D C A F A C D D D C A A G C F. (:
C c c d | e d | c e d d | c c c c d | e d | c e d d | c d d d d | a a | d c b a | g c c c d | e d | c e d d | c These are the letters of the notes as I don't know which instrument you intend to play this on. This can also be transposed.
Open up your brush menu by selecting ->Window -> Brushes. Then on your right you will see a little icon with brushes in a cup. Click on that. Then click your brush icon on the left :D
E d c d e e e d d d e g g e d c d e e e d d e d c
I learned how to play circles a while back but the notes are as follows... C D# G D# C D# G D# C D# G# D# C D# G# D Bb D# G D# Bb D# G D# B D G D B D B D G D. thats was the intro. background music is this.. C G G# G D# D G... then the first verse... D# D C BC Bb Bb Bb D# D C B D# D C C D# Bb Bb Bb D# D C B... THEN THE CHORUS.... C C C C C D# C C D# D# D# D# D# F D# D C C C C C C D# C C D# D# D# D# Bb D# D# F D# D C. THE SECOND VERSE.... C D# D C B C C Bb Bb Bb D# D C B D# D C C D# F G G G# G F G. that was all i got but thats pretty much almost the whole song. hope this was helpful
Suggested layouts . . . Just play ! ( Not sure if images will show . . . If not, here they are written out . . . Layout 01 - A, B, C, D, C, B, A D, C, A, B, A, C, D A, B, C, D, C, B, A D, C, A, B, A, C, D A, B, C, D, C, B, A D, C, A, B, A, C, D A, B, C, D, C, B, A D, C, A, B, A, C, D A, B, C, D, C, B, A Layout 02 - C, D, B, A, B, D, C D, B, A, D, A, B, D B, A, D, C, D, A, B A, D, C, B, C, D, A D, C, B, A, B, C, D A, D, C, B, C, D, A B, A, D, C, D, A, B D, B, A, D, A, B, D C, D, B, A, B, D, C Layout 03 - D, B, C, B, C, B, D A, D, B, C, B, D, A D, A, D, B, D, A, D C, D, A, D, A, D, C B, C, D, A, D, C, B C, D, A, D, A, D, C D, A, D, B, D, A, D A, D, B, C, B, D, A D, B, C, B, C, B, D Layout 04 - A, B, C, D, C, B, A B, A, B, C, B, A, B D, B, A, B, A, B, D C, D, B, A, B, D, C A, C, D, B, D, C, A C, D, B, A, B, D, C D, B, A, B, A, B, D B, A, B, C, B, A, B A, B, C, D, C, B, A
The answer is 4! (4 factorial), the same as 4x3x2x1, which equals 24 combinations. The answer is 24 and this is how: A b c d A b d c A c d b A c b d A d c b A d b c B c d a B c a d B d a c B d c a B a c d B a d c C d a b C d b a C a b d C a d b C b d a C b a d D a b c D a c b D b c a D b a c D c a b D c b a