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

The word 'electrochronometer' is divided into seven syllables (el-ec-tro-chro-no-me-ter) based on onset maximization and vowel-following consonant rules. It comprises the prefix 'electro-', root 'chrono-', and suffix '-meter'. Primary stress falls on the third syllable ('chro').

The word 'electrodynamometer' is a compound noun of Greek origin. It is divided into eight syllables with primary stress on the fifth syllable ('na'). Syllable division follows rules maximizing onsets and avoiding stranded consonants. The word's structure is similar to other '-meter' instruments like thermometer and barometer.

Electrophotometer is divided into seven syllables: el-ec-tro-pho-to-me-ter. The primary stress falls on 'tro'. The word is morphologically complex, built from Greek roots and suffixes. Syllable division follows standard English rules based on vowel-consonant patterns and stress assignment.

The word 'electropsychrometer' is divided into seven syllables: el-ec-tro-psy-cho-me-ter, with primary stress on the fourth syllable. It's a compound noun formed from Greek roots, and its syllabification follows standard English rules prioritizing vowel sounds and avoiding consonant cluster splits.

The word 'electropyrometer' is a compound noun of Greek origin, divided into seven syllables: e-lec-tro-py-ro-me-ter. Primary stress falls on the fifth syllable ('ro'). Syllabification follows standard English rules based on vowel-consonant patterns and diphthong preservation.

The word 'electrotelethermometer' is a complex noun composed of Greek-derived prefixes and a root, with the suffix '-meter'. Syllabification follows standard English rules, maximizing onsets and avoiding stranded consonants. Primary stress falls on the fifth syllable ('le'). The word's length and morphemic structure contribute to its complexity, with potential for vowel reduction and non-rhoticity in pronunciation.

The word 'erythrocytometer' is divided into six syllables: ery-thro-cy-to-me-ter. It consists of the prefix 'erythro-', the root 'cyto-', and the suffix '-meter'. Primary stress falls on the fourth syllable. Syllable division follows standard vowel division rules, with consideration for consonant clusters and diphthongs.

The word 'galvanothermometer' is a compound noun with seven syllables (gal-va-no-ther-mo-me-ter). Stress falls on the fifth syllable ('mo'). Syllabification follows standard English rules, prioritizing vowel-consonant patterns and maintaining morphemic boundaries where possible. The word's rarity and potential regional vowel variations are minor considerations.

The word 'glossodynamometer' is a compound noun of Greek origin. It is divided into seven syllables with primary stress on the fifth syllable ('mo-'). Syllable division follows standard English rules based on onset-rime structure and vowel-consonant patterns. The word's complexity arises from its length and the presence of diphthongs.

Hematodynamometer is divided into eight syllables: he-ma-to-dy-na-mo-me-ter. It's a compound noun with Greek/Latin roots, stressed on the fifth syllable. Syllable division follows standard vowel-consonant and diphthong preservation rules.

The word 'hydrodynamometer' is syllabified as hy-dro-dy-na-mo-me-ter, with primary stress on the fifth syllable ('mo'). It's a noun composed of the Greek roots 'hydro-', 'dynamo-', and the suffix '-meter', indicating an instrument for measuring dynamic force in fluids. Syllabification follows standard English rules of onset-rime and vowel-centric division.

The word 'hypsothermometer' is divided into six syllables: hy-pso-ther-mo-me-ter. It's a compound noun with Greek roots, stressed on the penultimate syllable. Syllabification follows standard English rules for open syllables and consonant clusters.

The word 'lactothermometer' is divided into six syllables: lac-to-ther-mo-me-ter. Stress falls on the third syllable ('ther'). The word is a compound noun formed from Latin and Greek roots, and its syllable division follows standard English rules prioritizing onsets and avoiding stranded consonants.

The word 'microchronometer' is divided into six syllables: mi-cro-chro-no-me-ter. It's a compound noun formed from Greek roots, with primary stress on the fourth syllable. Syllable division follows standard English rules based on vowel-consonant sequences and stress patterns.

The word 'microdensitometer' is divided into seven syllables: mi-cro-den-si-to-me-ter. The primary stress falls on the fifth syllable ('to'). It's a compound noun formed from Greek and Latin roots, denoting an instrument for measuring density. Syllabification follows standard English rules based on vowel-consonant patterns.

Microgalvanometer is a seven-syllable noun (mi-cro-gal-va-no-me-ter) with primary stress on the fifth syllable. Syllabification follows standard English rules based on vowel-consonant patterns and morpheme boundaries, with the '-meter' suffix attracting stress.

The word 'microrefractometer' is divided into seven syllables: mi-cro-re-frac-o-me-ter, with primary stress on 'frac-'. It's a noun composed of the Greek prefix 'micro-', the Latin root 'refract-', and the Greek suffix '-meter'. Syllable division follows English rules of onset maximization and vowel nucleus requirements.

The word 'microspectrophotometer' is divided into eight syllables (mi-cro-spec-tro-pho-to-me-ter) based on the onset-rime principle and morpheme boundaries. Primary stress falls on the seventh syllable ('to'). The word is a compound noun formed from Greek and Latin roots, denoting an instrument for measuring light absorption.

The word 'oleorefractometer' is a noun of Latin and Greek origin, divided into five syllables with primary stress on the fifth syllable ('frac'). Syllabification follows standard English rules of open and closed syllables, accommodating consonant clusters common in loanwords. The word consistently functions as a noun, with no syllabification shifts based on grammatical role.

The word 'oligochronometer' is divided into seven syllables: o-li-go-chro-no-me-ter. It comprises the Greek prefixes 'oligo-' and 'chrono-', the suffix '-meter', and the English suffix '-er'. Primary stress falls on the antepenultimate syllable. Syllabification follows standard English rules based on vowel-consonant patterns.

The word 'ophthalmodynamometer' is divided into eight syllables: op-thal-mo-dy-na-mo-me-ter. It's a noun composed of Greek roots and suffixes, with primary stress on the antepenultimate syllable. Syllabification follows standard English vowel-based rules, considering consonant clusters.

The word 'ophthalmotonometer' is a complex noun of Greek origin, measuring eye muscle tension. It is divided into seven syllables: op-thal-mo-to-no-me-ter, with primary stress on the penultimate syllable. Syllabification follows standard English vowel-consonant and consonant cluster division rules.

The word 'ophthalmotropometer' is syllabified as op-thal-mo-tro-po-me-ter, with primary stress on 'po'. It's a noun composed of Greek roots relating to the eye, turning, and measurement. Syllable division follows vowel-consonant patterns and respects morphemic boundaries.

The word 'opthalmothermometer' is a complex noun of Greek origin, divided into seven syllables: op-thal-mo-ther-mo-me-ter. Primary stress falls on the penultimate syllable. Syllabification follows standard English rules of onset maximization and vowel-based division, though the initial consonant cluster presents a potential pronunciation variation.

The word 'ostreodynamometer' is a complex noun of Greek origin, divided into eight syllables with primary stress on the fifth syllable. Syllabification follows standard English onset-rhyme structure, with potential for vowel reduction in unstressed positions.

The word 'pantochronometer' is divided into six syllables: pan-to-chro-no-me-ter. It's a noun composed of the Greek prefixes 'pan-' and root 'chrono-', and the suffix '-meter'. Primary stress falls on the fourth syllable. Syllabification follows standard onset-rime and vowel-consonant division rules.

The word 'phagodynamometer' is divided into seven syllables: pha-go-dy-na-mo-me-ter. Stress falls on the fifth syllable ('mo'). It's a noun composed of Greek roots and suffixes, meaning an instrument for measuring swallowing force. Syllabification follows standard onset-rime division rules, with the exception of the 'ph' digraph.

The word 'photographometer' is divided into six syllables: pho-to-graph-o-me-ter. It consists of the prefix 'photo-', the root 'graph', and the suffix '-meter'. Primary stress falls on the third syllable ('graph'). Syllabification follows standard English rules based on vowel and consonant patterns, with consideration for the 'ph' digraph and the schwa vowel.

The word 'psychogalvanometer' is a complex noun composed of Greek and Italian roots and a Greek suffix. It is divided into seven syllables: psy-cho-gal-va-no-me-ter, with primary stress on the penultimate syllable. Syllabification follows standard onset-rime division rules, accommodating consonant clusters and vowel-based syllable structure.

Spectrophotometer is a six-syllable word (spec-tro-pho-to-me-ter) with primary stress on the third syllable (/pho/). It's composed of the prefix 'spectro-', the root 'photo-', and the suffix '-meter'. Syllable division follows standard English rules based on vowel sounds and consonant clusters.

The word 'spectroradiometer' is divided into seven syllables based on vowel-consonant and consonant-vowel-consonant patterns. Primary stress falls on the fourth syllable (/reɪ/). The word is morphologically complex, consisting of a prefix, root, and suffix, each with Latin or Greek origins. Syllable division is consistent with similar words like 'thermometer' and 'barometer'.

The word 'sphygmomanometers' is a noun of Greek origin, divided into six syllables with primary stress on the fifth syllable. Syllabification follows English rules of onset maximization and vowel-centric structure, with the initial 'sph' cluster being a notable feature.

Stereocampimeter is a seven-syllable noun (ste-re-o-cam-pi-me-ter) with primary stress on 'cam'. It's a compound word from Greek and Latin roots, syllabified according to standard English (GB) rules based on vowel sounds and consonant clusters.

The word 'stereogoniometer' is an eight-syllable noun of Greek origin, used for measuring 3D angles. Stress falls on the fifth syllable. Syllabification follows standard English onset-rime rules, with open syllables predominating. The word's structure is similar to other '-ometer' instruments.

The word 'stethogoniometer' is divided into seven syllables: ste-tho-go-ni-o-me-ter. It's a noun of Greek origin, composed of the prefix 'stetho-', root 'goni-', and suffix '-meter'. Primary stress falls on the third syllable ('go'). Syllable division follows standard English rules, though the word's Greek origins result in some unusual syllable structures.

The word 'telehydrobarometer' is an eight-syllable compound noun with primary stress on the fifth syllable ('me-'). Syllabification follows standard English rules, maximizing onsets and avoiding stranded consonants. It's composed of Greek-derived morphemes indicating remote measurement of water pressure.

Thermogalvanometer is a seven-syllable noun with primary stress on the penultimate syllable. It's formed from Greek and Italian roots denoting heat, electricity, and measurement. Syllabification follows standard English (GB) rules of onset-rime division, vowel-glide combinations, and consonant codas.

Voltaelectrometer is a seven-syllable noun with primary stress on 'lec' and secondary stress on 'vol'. Syllabification follows standard English rules, maximizing onsets and avoiding stranded consonants. It's a compound word derived from Italian and Greek roots, functioning as an instrument for measuring electrical potential.