Nasals
Fricatives
Stops
Consonants
Spectrograms
100

Regions of antiresonance in a nasal murmur

Oral cavity and sinus cavities/tubelettes

100

Which fricative, /f/ or /s/, is going to have a higher peak frequency and why?

/f/ has a higher peak frequency because /f/ has a smaller front cavity than /s/

100

What is voice onset time (VOT)? Which type of stop is going to have a longer VOT and why?

The time between the burst and the onset of voicing (the vowel)

Voiceless stops have a longer VOT because:

1) they have an aspiration interval

2) they have a longer burst and frication interval

100

Smaller cavities yield higher/lower frequencies

Higher
100

What is F1 related to?

What is F2 related to?

F1 is inversely related to tongue height

F2 is directly related to tongue advancement

200

Regions of resonance in nasalization/nasalized vowels

Oral cavity and nasal cavity

200

Name the different spectral measurements used to distinguish fricative spectra:

1) peak frequency

2) dynamic range

3) spectral moments 

200
What are the different parts of the stop source?

1) closure interval/silent interval

2) burst

3) frication interval

4) aspiration interval

200
Components of an affricate

1) closure interval/silent interval

2) burst

3) REALLY LONG frication interval

200
Label the axes of a spectrogram

x-axis: time

y-axis: frequency

z-axis: amplitude

300

How many resonances do nasalized vowels (nasalization) have?

Two (one resonance is from the oral cavity and one is from the nasal cavity)

300

Source for fricative acoustics

Turbulent airflow through a narrow constriction

300

True/false: We can determine the place of articulation of a stop consonant based off of the shape of the stop spectra

True

300

Put the following sounds in order from shortest to longest: affricates, stops, fricatives

Shortest: stops

Middle: affricates

Longest: fricatives

300
What indicates amplitude on a spectrogram?

Darkness of the shading

400

True/false: The velopharyngeal port is raised when nasal sounds (nasal murmurs and nasalization) are produced

False
400

Define mixed source. What type of fricative has a mixed source and what are the two sources?

Mixed source implies that a sound is made with more than one source

Voiced fricatives have a mixed source. The two sources are:

1) the aperiodic, turbulent airflow through a narrow constriction in the oral cavity

2) the periodic pressure wave generated by vocal fold vibration

400

What is the region of resonance in stop acoustics? What is the region of antiresonance in stop acoustics?

Resonance is in the front cavity

Antiresonance is in the back cavity

400

Describe the airflow in the lateral /l/ sound

Air flows out of both sides of the tongue

400

What are the three important factors for digital speech analysis?

1) sampling rate

2) filtering

3) bits (quantization)

500

Why do nasalized vowels (nasalization) have weaker amplitude than non-nasalized vowels?

Nasalized vowels are weaker in amplitude due to the fact that they have antiresonance, which is not present in vowel sounds.

500

What type of fricatives have more energy?

Sibilant fricatives, which are the fricatives that must overcome an additional obstacle in the oral cavity

500

Location of the turbulence during the aspiration interval

The glottis

500

In the lateral /l/ sound, which formant is most impacted by antiresonance?

F3

500

Where should we measure vowel formants on a spectrogram?

The temporal middle

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