Rheumatoid arthritis (RA) is a chronic systemic autoimmune disorder marked by persistent synovial inflammation, progressive cartilage erosion, and resultant functional impairment. Beyond established determinants such as genetic predisposition, advancing age, and tobacco exposure, environmental and climatic variables, particularly ambient temperature and relative humidity have been hypothesized to modulate both RA prevalence and symptomatic burden. This study synthesizes epidemiological prevalence metrics and clinical reports from North America alongside selected international data to evaluate associations between colder climates and RA burden, and to assess correlations between seasonal temperature and humidity patterns and disease activity. Age standardized prevalence estimates (per 100,000 population) were collated and cross referenced with mean winter and summer temperature and humidity indices. Observational cohort studies, diary based symptom tracking, case crossover analyses, and mechanistic experimental reports were reviewed to integrate subjective symptom change with objective disease indices. Findings indicate that higher prevalence clusters occur in several colder, higher latitude or inland regions, although climate alone does not account for regional variability. Occupational cold exposure has been associated with elevated incident risk (odds ratios up to ~1.7), and patients commonly report increased pain and stiffness during cold, damp periods. Meta analytic syntheses reveal modest inverse associations between temperature and tender joint counts and between barometric pressure and swollen joint counts; humidity effects remain inconsistent. Substantial confounding by demographics, genetic factors, smoking prevalence, and activity patterns likely mediates observed patterns. Prospectively designed longitudinal studies with integrated meteorological, clinical, and immunologic measures are required to disentangle causal pathways and mechanisms.