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Microphones Theory

Instructions:

Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can study here.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

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. Small Diaphragm Electret condensers; Extremely flat frequency response; Omnidirectional pattern.
Stereo Bar
Body
Measurement Mics
Capacitance

2. Vintage Tube Mics hold voltage after being unplugged; Be sure grounds are connected to power cord and that the charge has left microphone prior to striking.
Goals of Sound Effects
Pressure Capsules
Magnetic Induction Voltage
Vintage Tube Mic Precautions

3. Device used to calibrate sound pressure measurement devices; Emits a single 1 kHz frequency over a sustained period of time.
Electret (Word Etymology)
Pistonphone
Hypercardioid/Supercardioid (Electrical Polar Pattern)
Crystal Mic Damage

4. + (only); (Front capsule alone)
Cardioid (Electrical Polar Pattern)
Pickup
Subcardioid
Ribbon Microphone Sensitivity

5. Omnidirectional: N/ - Cardioid: 180
Angle of Max Rejection
Supercardioid
Faulkner
Transient Response

6. The method by which microphones are classified.
Nuvistor Tube
Tuning Keys
Ambient Sound Sensitivity
Transducer Type

7. Coincident stereo miking techniques that has two microphone diaphragms occupying (as near as possible) the same space; Capsules often on top of each other; Not good for noisy locations.
Mid/Side
Boom Placement Rule
Coincident Pair
Neumann U67

8. The arm of the mic stand; Includes the angle adjust & telescopic adjust.
Boom
Condenser Microphone
A-Weighting
Neumann CMV3

9. 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.
Speed of Sound Underwater
Increasing Output Voltage in Ribbon Mics
Transducer Type
Counterbalance

10. Commonly utilize large diaphragm dynamic mics.
LRFB
Hypercardioid/Supercardioid (Electrical Polar Pattern)
Faraday's Law of Magnetic Induction
Bass Amp Mic Placement

11. An instrument for detecting sound transmitted through water commonly manufactured using ceramic piezoelectric material.
Hydrophone
Wind Screens
Capacitance
End Address

12. Coincident pairing that is at 90
Hypercardioid
Stereosonic
M/S Stereo
5 Common Microphone Transducers

13. Coincident pairing of two bidirectional mics that make a pattern of crossing Figure 8's.
Shure Unidyne Series
Sennheiser e604
Blumlein Pairing
Pad

14. Polar pattern produced when you add a little bit of bidirectional to the omni pattern.
Shure KSM Series
Subcardioid
Matched Pairs
Guitar Amp Mic Placement

15. Configured to simulate the spacing and directivity of human hearing; Box shape with two 'ears' on each side.
Off-Axis
Condenser Diaphragm
SASS-P
AB Stereo

16. Mic in which the diaphragm moves in response to sound waves and an attached pin/rod moves; Coil attached to pin/rod moves alone with the diaphragm.
Goals of Sound Effects
Magnetic Microphone
Shure SM58
Fukada Tree

17. Mounts on a single stand to provide for adjustable spacing and angling between mics.
Trumpet Mic Placement
Shure SM81
Goals of Sound Effects
Stereo Bar

18. 1 Bidirectional & 1 Cardioid placed coincidentally; Bidirectional faces left and right and cardioid faces the sound; Gives control of the focus and size of the stereo image;
OSHA Exposure Table
3:1 Rule
Microphone Storage
M/S Stereo

19. Reduces the power of a signal used when the trim itself cannot prevent overload in the mic line level signal.
Pad
Subcardioid
Pierre Curie
Stereo

20. The head or top of the guitar where the tuning pegs are located.
AB Stereo
Headstock
Dynamic Range
Neumann U67

21. Forward facing bipolar mics spaced 20cm apart.
Faulkner
Coincident Pair
Sensitivity
AKG C12

22. Tough & rugged; Can work in extremely high SPL environments; Less responsive to transient frequencies b/c of diaphragm mass is heavier than sound waves.
Dynamic Mic Characteristics
Noise
Ribbon Microphone
Mid/Side

23. The combination of the ribbon and magnet in a ribbon microphone.
Motor
Microphone (Word Etymology)
Pressure Gradient Capsules
Shockmount

24. Three or more microphones working together to capture a stereo or surround image of the sound source.
Pierre Curie
Carbon Microphone Uses
Arrays
Phase Ports

25. Omnidirectional: 0 - Cardioid: 8 - Supercardioid: 12 dB - Hypercardioid: 6 dB - Bidirectional: 0
Rear Sensitivity (Relative to Front)
FFT Analyzer
Tuning Keys
Clip

26. EMI employee that was the innovator of many coincident pairing mic techniques; Mid/Side & Blumlein techniques are associated with him.
Sennheiser e604
ORTF
Alan Blumlein
Altec/Western Electric 639

27. The outer covering of a microphone.
Powering Condenser Microphones
Casing
DIN
Rudolf Goerike & Ernest Pless

28. Cable wrapping method that keeps every coil on top of the next; May cause interference and tiny curls or tangles.
Noise
SASS-P
Guitar Amp Mic Placement
Over/Over

29. Radio Frequency Interference
Near Coincident Pair
RFI
Bandpass
Bass Amp Mic Placement

30. Condenser; Cardioid; End Address; Manufactured by Shure; Small condenser design that is great for instrument recording.
Wind Screens
Real Time Analyzer (RTA)
Shure SM81
Telefunken ELA- M251

31. Modern drummer who has created a large kit and innovated several ways of capturing the sound from his massive kit.
Terry Bozzio
Decca Tree
Electret (Word Etymology)
Condenser Microphone

32. 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.
RFI
Sennheiser MD421
AKG C12
Faraday's Law of Magnetic Induction

33. To break down or disassemble any portion of a set or stage set- up.
Stereo
X/Y
Ribbon Microphone Sensitivity
Striking

34. 4800 ft/sec
Striking
Guitar Amp Mic Placement
Speed of Sound Underwater
E.C. Wente

35. To oppose with equal weight or force as in the length of the boom arm versus the weight of the microphone.
Counterbalance
End Address
M/S Stereo
Distance Factor

36. The measuring device used for loudspeaker room response testing.
Real Time Analyzer (RTA)
Null Angle
Snare Drum Mic Placement
Shotgun

37. More compelling sound - giving both depth and perspective.
Body
Stereo
Boom
Shure SM57

38. Proportional to: Magnetic field strength; Length of the conductor; Velocity of conductor moving through the magnetic field.
Spaced Pairs
NOS
Ribbon Microphone Sensitivity
Magnetic Induction Voltage

39. Used in adverse conditions to protect from elements like sand - or dust.
OSHA Exposure Table
Dual Mono
Wind Screens
Dynamic Microphone

40. Known as 'The Bottle' this was the first mass - produced condenser mic.
Neumann CMV3
Faulkner
Shure SM58
Measurement Mics

41. Cable wrapping method that reduces interference and makes it easier to unravel the cable.
LRFB
Examples of Piezoelectric Material
Null Angle
Over/Under

42. 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.
Dual Mono
Carbon Microphone Uses
Mono
Bidirectional

43. 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.
Theatrophone
Shure SM58
AKG C12
Capacitance

44. Close mic placement can help guard again bleed from other instruments and takes advantage of proximity effect; Center of cone = Brighter; Outside of cone = Darker; Reflections can create phase issues (can be reduced by putting the cabinet at an angle
End Address
Georg Neumann
Dynamic Range
Guitar Amp Mic Placement

45. The lowest - and usually most intense - frequency of a complex sound; Most often perceived as the sound's basic pitch.
Altec/Western Electric 639
Proximity Effect
Capacitance
Fundamental Frequency

46. Bell Labs scientist that was an innovator of many spaced pair and arrayed miking techniques.
Over/Under
Matched Pairs
Hypercardioid
Harvey Fletcher

47. Used by government agencies to determine safe sound exposure levels (in dB) over a period of time; 85 - 90 dB = 16 hrs. of safe exposure time at 85 dB; Decreases to 8 hrs. of safe exposure time at 90 dB.
Goals of Sound Effects
RCA 44BX
Distance Factor
OSHA Exposure Table

48. Pair of cardioids facing to the front and rear - plus a sideways - facing figure 8; Mid- sides pair plus another rear- facing cardioid which is combined with the same Figure 8 mic for the surrounds.
Neumann U67
Pickup
MSM
ORTF

49. Mics placed in front of an instrument or ensemble (in a left/right fashion) to obtain an overall stereo image; Sound more open and natural; Weaker center image than X/Y; Great for creating background sounds that will blend in with foreground sounds.
AB Stereo
Spaced Pairs
Boom Placement Rule
Sensitivity

50. The first phantom powered condenser microphone designed for use by Georg Neumann for Norwegian State Television.
Binaural Mic
Neumann KM-84
Clutch
Stereo Bar