Words with Suffix “--meter” in English (US)

The word 'electrodynamometer' is divided into eight syllables based on vowel-consonant and vowel-liquid sequences, with primary stress on the antepenultimate syllable. It comprises the prefix 'electro-', root 'dynamo-', and suffix '-meter', all of Greek origin. Syllabification follows standard English rules, with minor considerations for diphthong placement.

The word 'electroergometer' is a complex noun of Greek origin. It is divided into seven syllables: el-ec-tro-er-go-me-ter, with primary stress on the third-to-last syllable. Syllabification follows standard English rules of onset-rime structure and consonant cluster splitting.

Electrophotometer is a noun with seven syllables (el-ec-tro-pho-to-me-ter). It's formed from Greek roots relating to electricity, light, and measurement. Primary stress falls on the antepenultimate syllable. Syllabification follows standard English rules of vowel-consonant division and diphthong formation.

The word 'electropyrometer' is divided into seven syllables based on vowel and consonant cluster rules. It consists of the prefix 'electro-', root 'pyro-', and suffix '-meter'. Primary stress falls on the fourth syllable. Syllabification is consistent with similar words like 'thermometer' and 'barometer'.

Compound noun with 9 syllables: e-lec-tro-te-le-ther-mom-e-ter, primary stress on “mom,” IPA /ɪˌlɛk.troʊˌtɛl.əˌθɝːˈmɑː.mə.tɚ/.

The word 'electrotelethermometer' is a 9-syllable technical noun, divided as e-lec-tro-te-le-ther-mom-e-ter. It is a compound of Greek-derived morphemes: 'electro-', 'tele-', 'therm-', and '-meter'. The primary stress is on the seventh syllable ('mom'), with secondary stresses on 'lec' and 'te'. Its syllabification respects the morphemic boundaries and follows standard English phonotactic rules, including the Maximal Onset Principle and stress-influenced division for the '-ometer' pattern.

Electrotelethermometer is a complex noun syllabified as el-ec-tro-te-le-ther-mo-me-ter, with primary stress on the fourth syllable. Syllabification follows onset maximization and vowel-consonant division rules, preserving prefix/suffix integrity.

Galactodensimeter is a seven-syllable noun with primary stress on the third syllable ('to'). It's formed from Greek and Latin morphemes, indicating an instrument for measuring milk density. Syllable division follows standard English rules of onset maximization and vowel-consonant separation.

Glossodynamometer is a noun meaning an instrument for measuring tongue movements. It's divided into seven syllables: glos-so-do-na-mom-i-ter, with primary stress on 'mom'. It's composed of Greek morphemes and syllable division follows standard English rules.

Hematodynamometer is a noun meaning an instrument for measuring blood flow. It's syllabified as he-ma-to-dy-na-mo-me-ter, with primary stress on the antepenultimate syllable. The word is composed of Greek/Latin roots and syllabification follows standard English onset-rime division rules.

A 9-syllable compound noun ('he-ma-to-spec-tro-pho-to-me-ter') derived from Greek and Latin roots meaning 'blood-spectrum-light-measure'. The primary stress is on the seventh syllable ('to'), with secondary stress on the first ('he') and fourth ('spec'). The division follows morphemic boundaries, with an IPA transcription of /ˌhiːmətoʊˌspɛktroʊfoʊˈtɑmətər/.

Hematospectrophotometer is divided into nine syllables (he-ma-to-spec-tro-pho-to-me-ter) based on vowel-consonant and consonant cluster rules. Primary stress falls on the fifth syllable ('tro-'). The word is a compound noun derived from Greek and Latin roots, used to measure blood components.

A nine-syllable compound of Greek/Latin combining forms (hemato- + spectro- + photo- + -meter) with primary stress on the photometer head; syllabification follows VCV maximal-onset splits and respects compound boundaries.

Hematospectrophotometer is a nine-syllable scientific compound (he-ma-to-spec-tro-pho-tom-e-ter) combining Greek hemato- ('blood'), Latin/Greek spectro- ('spectrum'), Greek photo- ('light'), and Greek -meter ('measure'). Primary stress falls on 'tom' following standard -ometer stress patterns, with secondary stresses on 'he' and 'spec'. IPA: /ˌhiːmætoʊˌspɛktroʊfoʊˈtɒmɪtər/.

Hydrodynamometer is a six-syllable noun with Greek roots, meaning an instrument for measuring fluid power. Syllabification follows VCV and CVC patterns, respecting morpheme boundaries, with primary stress on the antepenultimate syllable.

Lactothermometer is a six-syllable noun with primary stress on the fourth syllable. It's a compound word formed from 'lacto-', 'thermo-', and '-meter', following standard English syllabification rules based on vowel nuclei and maximizing onsets.

The word 'microdensitometer' is divided into seven syllables: mi-cro-den-si-to-me-ter. It consists of the prefix 'micro-', the root 'densito-', and the suffix '-meter'. Primary stress falls on the penultimate syllable. Syllable division follows the principles of maximizing onsets and adhering to vowel-consonant patterns.

The word 'microgalvanometer' is divided into seven syllables: mi-cro-gal-va-no-me-ter. It consists of the prefix 'micro-', the root 'galvano-', and the suffix '-meter'. Primary stress falls on the fifth syllable. Syllabification follows the principles of maximizing onsets and avoiding stranded consonants.

Microspectrophotometer is an 8-syllable technical compound noun (mi-cro-spec-tro-pho-to-me-ter) formed from Greek and Latin roots: micro- ('small') + spectro- ('spectrum') + photo- ('light') + -meter ('measure'). Primary stress falls on the sixth syllable 'to', with secondary stresses on 'mi' and 'spec'. IPA: /ˌmaɪ.kroʊˌspɛk.troʊ.foʊˈtɑ.mɪ.tɚ/. Syllabification follows morpheme boundaries and the Maximal Onset Principle.

The word 'microspectrophotometer' is divided into eight syllables: mi-cro-spec-tro-pho-to-me-ter. It consists of the prefix 'micro-', roots 'spectro-' and 'photo-', and the suffix '-meter'. It exhibits a dual-stress pattern on the third and final syllables. Syllable division follows standard English rules based on vowel-consonant sequences.

Compound technical noun built from micro- + spectro- + photo- + -meter. Orthographic syllabification is mi-cro-spec-tro-pho-to-me-ter with primary stress on the to syllable of the photometer portion and secondary stress on micro- and spectro-. IPA: /ˌmaɪkroʊˌspɛktroʊfəˈtɑmɪtər/.

The word 'microspectrophotometer' is an 8-syllable scientific noun divided as 'mi-cro-spec-tro-pho-to-me-ter'. Its structure is a compound of Greek and Latin roots: 'micro-', 'spectro-', 'photo-', and '-meter'. The primary stress is on the sixth syllable ('to'), following the standard pattern for '-ometer' words. This stress causes the vowel to shift to /ɑ/. Secondary stresses fall on 'mi', 'spec', and 'pho'. The IPA is /ˌmaɪ.kɹoʊˌspɛk.tɹoʊˌfoʊˈtɑ.mə.tɚ/.

The word 'oligochronometer' is divided into seven syllables: o-li-go-chro-no-me-ter. The primary stress falls on the antepenultimate syllable. It's a noun composed of Greek and English morphemes, functioning as an instrument for measuring short time intervals. Syllable division follows standard English vowel-consonant rules.

Ophthalmodiastimeter is an 8-syllable Greek-derived medical noun (oph-thal-mo-di-as-tim-e-ter) meaning an instrument for measuring ocular distances. Primary stress falls on 'tim'; secondary stress on 'oph' and 'di'. The word combines 'ophthalmo-' (eye), 'dia-' (through), and '-meter' (measure). Syllabification follows maximal onset principle while respecting morpheme boundaries and preserving Greek digraphs 'ph' (/f/) and 'th' (/θ/).

Ophthalmodynamometer is an 8-syllable Greek-derived medical compound (oph-thal-mo-dy-na-mom-e-ter) combining 'ophthalmo-' (eye) + 'dynamo-' (force) + '-meter' (measure). Primary stress falls on 'mom' (syllable 6), secondary on 'oph' (syllable 1). Syllabification follows morphological boundaries and preserves digraphs 'ph' and 'th'.

Ophthalmodynamometer is a complex noun of Greek origin, used to measure retinal artery resistance. It's divided into eight syllables (op-thal-mo-dy-na-mom-e-ter) with primary stress on the antepenultimate syllable. Syllabification follows vowel-consonant and consonant cluster rules, accounting for digraphs and schwa sounds.

The word 'ophthalmothermometer' is a complex noun formed from Greek roots. It is divided into seven syllables: op-thal-mo-ther-mo-me-ter, with primary stress on the fifth syllable ('mo-'). Syllabification follows vowel boundary and consonant cluster rules, resulting in a mix of open and closed syllables.

The word 'ophthalmotonometer' is a complex noun with seven syllables (op-thal-mo-to-no-me-ter). It's derived from Greek roots and suffixes, and its syllable division follows principles of onset maximization and vowel-consonant separation. Primary stress falls on the fifth syllable ('no').

The word 'ophthalmotropometer' is divided into seven syllables: op-thal-mo-tro-po-me-ter. It's a noun composed of Greek roots relating to the eye, turning, and measurement. Primary stress falls on the fifth syllable. Syllable division follows standard vowel-consonant and consonant cluster rules, with schwas influencing boundaries.

The word 'opthalmothermometer' is a complex noun composed of Greek roots and suffixes. It is divided into seven syllables: op-thal-mo-ther-mo-me-ter, with primary stress on the fifth syllable. The initial 'opth-' cluster presents a phonological challenge, and the word's rarity leads to pronunciation variations. It functions solely as a noun, denoting an instrument for measuring eye temperature.

Ostreodynamometer is a 7-syllable noun of Greek origin, meaning an instrument for measuring bone strength. Syllabification follows standard English rules, with primary stress on the antepenultimate syllable. The word's complexity arises from its length and Greek-derived vowel clusters.

The word 'pantochronometer' is divided into six syllables: pan-to-chro-no-me-ter. Stress falls on the antepenultimate syllable ('no'). The word is morphologically complex, composed of the prefix 'pan-', the roots 'chrono-', and the suffix '-meter'. Syllable division follows the onset-rime principle and sonority sequencing.

The word 'phagodynamometer' is a noun of Greek origin, divided into seven syllables: pha-go-dy-na-mo-me-ter. Primary stress falls on the fourth syllable ('na-'). It consists of the prefix 'phago-', the root 'dynamo-', and the suffix '-meter'. The initial 'ph' is pronounced as /f/, an exception to standard English pronunciation.

Photodensitometer is a seven-syllable noun with penultimate stress. It's a compound word from Greek and Latin roots, meaning an instrument for measuring density using light. Syllabification follows standard US English rules based on vowel-consonant patterns and diphthongs.

Photographometer is a four-syllable noun (pho-to-graph-o-me-ter) with primary stress on the third syllable. It's built from Greek roots and suffixes, and syllable division follows standard English vowel-consonant rules, with vowel reduction in unstressed positions.

Polaristrobometer is a seven-syllable noun (po-lar-i-stro-bo-me-ter) with primary stress on the fourth syllable. It's a technical term composed of Latin and Greek roots and suffixes, and its syllabification follows standard English rules.

The word 'psychogalvanometer' is a seven-syllable noun with primary stress on the fourth syllable. It's composed of the Greek prefix 'psycho-', the Italian root 'galvano-', and the Greek suffix '-meter'. Syllabification follows standard vowel-consonant and consonant-vowel division rules.

Spectrofluorometer is a six-syllable noun with primary stress on the third syllable ('fluo'). It's formed from the prefixes 'spectro-' and 'fluoro-', and the suffix '-meter'. Syllable division follows standard English onset-rime principles, accounting for vowel and consonant clusters.

Spectrophotometer is a six-syllable noun with primary stress on the fourth syllable ('me-'). It's formed from Greek and Latin roots, indicating an instrument for measuring light. Syllabification follows standard VC and CV rules, with consideration for initial consonant clusters.

Spectropyrometer is a six-syllable noun with primary stress on the third syllable ('py'). It's derived from Greek and Latin roots, and its syllabification follows standard English rules regarding vowel-consonant patterns and diphthongs. The '-meter' suffix is a common feature in similar scientific instruments.

Spectroradiometer is a five-syllable noun with primary stress on the final syllable. It's composed of the prefix 'spectro-', the root 'radio-', and the suffix '-meter'. Syllabification follows standard vowel-consonant and onset-rime division rules, with the 'r' sound influencing vowel quality.

The word 'sphygmomanometer' is a six-syllable noun of Greek origin, used to measure blood pressure. It is stressed on the third syllable ('man') and features a complex initial consonant cluster and multiple schwa sounds. Syllabification follows standard vowel and consonant cluster rules.

The word 'telehydrobarometer' is an eight-syllable noun composed of Greek-derived morphemes. Primary stress falls on the fifth syllable ('met'). Syllabification follows standard English rules of onset-rhyme division, allowing consonant clusters and recognizing diphthongs as single nuclei. The word's structure is consistent with other '-meter' instruments, but its length influences the stress pattern.

The word 'thermogalvanometer' is divided into seven syllables: ther-mo-gal-va-no-me-ter. It's a noun composed of the prefix 'thermo-', the combining form 'galvano-', and the suffix '-meter'. Primary stress falls on the antepenultimate syllable ('no'). Syllable division follows standard VC division and open syllable preference rules.