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Microphones Theory

Instructions:

Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. Increasing magnetic field strength is the only practical means of increasing output voltage; Conductor movement is limited due to tension of the ribbon; and ribbon length increases lead to a loss of high frequency response.
Neumann U67
Omnidirectional (Electrical Polar Pattern)
Arrays
Increasing Output Voltage in Ribbon Mics

2. The tuning machines of a guitar; Part of the tuning key that strings are threaded through and twisted.
Sennheiser e604
Protractor & Ruler
Machine Head
Interference Tube...

3. Delicate and require extreme care; NO PHANTOM POWER; Becoming more popular than ever because of highly efficient magnets - lower manufacturing costs - and great fidelity.
Tuning Keys
Ribbon Mic Characteristics
Transient Response
Bidirectional (Electrical Polar Pattern)

4. Polar pattern produced when you add a little bit of bidirectional to the omni pattern.
Subcardioid
Over/Under
OSHA Exposure Table
Dynamic Range

5. Early example of switchable polar patterns; Had both a dynamic and a ribbon capsule inside of it which when combined produced other polar patterns.
Headstock
Ribbon Mic Characteristics
Shure Unidyne Series
Altec/Western Electric 639

6. Causes an increase in low frequency response as one gets closer to the source.
Proximity Effect
Angle of Max Rejection
AKG C414
Examples of Piezoelectric Material

7. Sounds that may be broadcast over the radio or internet.
Mono
Kick Tunnel
Field Mixer
Leslie Cabinet

8. Never store mic in a damp place; Keep dirt & dust away from the mic; Never 'pop' test the mic; Check if a mic is working by lightly scratching the grill.
Carbon Microphone Uses
Microphone Care...
Field Mixer
Frets

9. Tube microphone capable of SPL's over 140dB.
Neumann U67
Soundfield
End Address
Shure SM57

10. Filters only the bandwidth of frequencies that are supposed to (or allowed) to pass through; High and Low Pass are examples.
Bandpass
Cardioid
Polar Pattern
Voice Coil

11. Condenser; Cardioid; End Address; Manufactured by Shure; Small condenser design that is great for instrument recording.
Tuning Keys
Shure SM81
Ribbon Microphone
Highpass Filter

12. The first dynamic microphone with changeable polar patterns.
SPL Meter
AKG D36
Ribbon Mic Characteristics
Lowpass Filter

13. Omnidirectional: 360
Coverage Angle
Shure KSM Series
AKG C414
Magnetic Microphone

14. Microphone with 4 large diaphragm condenser capsules; 3 bidirectional and 1 omni; Can be combined to make any polar pattern.
Soundfield
Body
Hydrophone
Dynamic Microphone

15. Allow sound to reach the rear of the capsule/diaphragm - to create cardioid - supercardioid - and hypercardioid patterns In single capsule pressure gradient microphones.
Tuning Keys
Microphone Storage
Field Mixer
Phase Ports

16. An electromagnetic microphone - in which a thin - corrugated ribbon is suspended within a high magnetic flux field; Excellent transient response due to the small amount of acoustic energy required to move diaphragm.
Sennheiser e604
Highpass Filter
Cardioid
Ribbon Microphone

17. Pure polar pattern that receives sound from both the front and back; Also known as a 'Figure 8' pattern; More proximity effect that Cardioid or Hyper Cardioid; Often found in ribbon mics.
Max SPL
Bidirectional
Diaphragm
End Address

18. Coincident pairing angled between 90
Damping
Faraday Cage
X/Y
Motor

19. Mics in which sound waves vibrate a piezoelectric crystal that generates a varying voltage.
Real Time Analyzer (RTA)
Crystal & Ceramic Microphones
A-Weighting
Neumann U47

20. Measurement of Sound Pressure; stated as being N/m2 with a Newton being a measurement of force equal to about 9.8 lbs; Equal to 94dB SPL
Pascals (Pa)
Capacitor Microphone
On -Axis
Bidirectional (Electrical Polar Pattern)

21. The world's first single element cardioid mics.
Reisz Marble Mic
Shure Unidyne Series
Mono
Cone

22. Solid state version of the U67.
Goals of Sound Effects
AudioTechnica AT4040
Neumann U87
Vintage Tube Mic Precautions

23. Rotating speaker cabinet design featuring separate treble and bass drivers that can switch speeds; Speaker rotate from front to back creating a Doppler effect; Resulted in new spatial perception for each note. Stereo miked up top and single miked at
Snare Drum Mic Placement
Leslie Cabinet
Dual Mono
Shure SM57

24. This is what is measured to produce an electrical signal in condenser mics; This changes as sound waves strike the diaphragm causing the distance to the back plate to change.
Machine Head
Capacitance
Voice Coil
Snare Drum Mic Placement

25. Device used to calibrate sound pressure measurement devices; Emits a single 1 kHz frequency over a sustained period of time.
Over/Under
Pistonphone
Real Time Analyzer (RTA)
Pickup

26. One of the world's greatest condenser microphones prized for the CK12 capsule.
Legs
Microphone Storage
AKG C12
Coincident (Definition)

27. Three or more microphones working together to capture a stereo or surround image of the sound source.
Shotgun
Examples of Piezoelectric Material
Arrays
Legs

28. Stereo coincident pairing where the middle mic (usually a cardiod) is facing source and a bidirectional side mic is placed at 90
Wind Screens
Hydrophone
Mid/Side
Pascals (Pa)

29. Verify that the boom is placed over a microphone leg prior to use to provide added balance and stability.
Microphone Care...
Field Mixer
Boom Placement Rule
Subkick

30. Using omnidirectional as a reference of 1 - this is a measurement of how much farther you can be from a mic to achieve equal output level in other polar pattern microphones.
Goals of Sound Effects
Hypercardioid/Supercardioid (Electrical Polar Pattern)
Distance Factor
Voice Coil

31. Part of a mic stand that the mic stands on.
Increasing Output Voltage in Ribbon Mics
Legs
Hypercardioid/Supercardioid (Electrical Polar Pattern)
Telefunken ELA- M251

32. Utilized primarily on condenser and ribbon mics to isolate it from vibrations that might otherwise be transmitted to the microphone through the mic stand.
Measurement Mics
Shockmount
Capacitor
Coincident Pair

33. Determined by: Ribbon Thickness (about 3 to 6 microns); Corrugations/Inch; Tension of the Ribbon.
Carbon Microphone
SASS-P
Doubling Ribbon Length
Ribbon Microphone Sensitivity

34. Stereo configuration using a spaced pair 3-10 feet apart.
Shure KSM Series
AB Stereo
Neumann U67
Rudolf Goerike & Ernest Pless

35. - Omnidirectional: 1 - Cardioid: 1.7 - Supercardioid: 1.9 - Hypercardioid: 2 - Bidirectional: 1.7
Shure SM57
Neumann CMV3
Rear Sensitivity (Relative to Front)
Distance Factor (DSF)

36. Tube manufactured for the new version of the AKG C12 (called the C12-A); Powered by Norelco.
A-Weighting
Nuvistor Tube
Goals of Sound Effects
Shure SM57

37. Dynamic; Cardioid; End Address; Manufactured by Sennheiser; Unique mic clip with quick- release button; Large diaphragm dynamic element handles high SPL's - making it great for recording guitars and drums.
Binaural Mic
Sennheiser MD421
Proximity Effect
Bass Amp Mic Placement

38. Extremely narrow area of sensitivity in front with extended reach; Also has multiple lobes which vary in position with frequency; Not made from combining pure patterns - but created by using an interference tube.
AudioTechnica AT2020
Shotgun
Bass Amp Mic Placement
Omnidirectional (Electrical Polar Pattern)

39. Quartz; Barium Titaniate - Tourmaline; Rochelle Salt - and even cane sugar.
Model 3B Carbon Microphone
Examples of Piezoelectric Material
Tuning Keys
Magnetic Induction Voltage

40. Used to filter heating current in certain mics; Invented by Georg Neumann.
Crystal & Ceramic Microphones
Sealed Ni-Cad Battery
Phasing
Mid/Side

41. German broadcasting stereo mic technique; An X-Y type with the mics 20cm apart and at a 90
DIN
Nuvistor Tube
AKG C12
5 Common Microphone Transducers

42. - Omnidirectional: 100% - Cardioid: 33% - Supercardioid: 27% - Hypercardioid: 25% - Bidirectional: 33%
Speed of Sound Underwater
Packing
Ambient Sound Sensitivity
Sennheiser MD421

43. Most sensitive to sounds arriving from the front while rejecting sounds from rear; Shaped like a heart; Rejects most signals from 180
Cardioid
Condenser Microphone
Parabolic Systems
Omnidirectional (Electrical Polar Pattern)

44. Small microphone attached to the bridge of a string bass or to an acoustic guitar to amplify its sound.
Pickup
Sensitivity
Max SPL
AKG C12

45. Measurement of the mic's sensitivity; Measured in mV/Pa (millivolts per Pascal).
Cone
Hypercardioid/Supercardioid (Electrical Polar Pattern)
Sensitivity
Binaural Mic

46. Microphone consisting of two parallel metal plates - each holding an opposing charge (+ or -) and thus creating a capacitor to induce an electrical charge as sound waves move the diaphragm; Require a solid- state or tube preamplifier.
Cardioid
LRFB
Condenser Microphone
RCA 44BX

47. The part of the guitar you turn to tune the strings in order to get the right sound out of the guitar when one plays.
Shure KSM-353
Tuning Keys
Bidirectional
Damping

48. Shows the level of self- noise from a microphone's internal electronics; Measured in dB (decibels).
Null Angle
Shure SM57
Noise
Shure KSM-353

49. + & - (Front & rear in opposite equal amounts)
Bidirectional (Electrical Polar Pattern)
Reisz Marble Mic
Stereo Bar
On -Axis

50. 12V DC; 24V DC; 48V DC
3 Voltages for Phantom Power
Spaced Pairs
Shure SM81
Striking