New photoelectric times of maximum light of the SX Phoenicis variable CY Aquarii are combined with times of maximum light extending over 64 years to determine the long-term period variations. The recent data do not show significant cycle-to-cycle variations as some have reported but the data do clearly show an abrupt period change in 1989 corresponding to a new period of 0.(d)061038612.

New uvbyß photometric observations of the dwarf Cepheid V567 Oph are reported. An improved period (0ḍ49523641 ± 0ḍ000000043) is found. Large errors in the calculated times of maximum light (O — C ≈7 minutes), variations in the light amplitude (δΔV≈0ṃ03), variations in the width of the light curve (δΔΦ≈ 0.1 cycle FWHM), and differences in the radial-velocity amplitude (2K = 35 ± 4, 26 ± 2, and 30 ± 7 km sec⁻¹ ) suggest the star has a secondary overtone mode of pulsation. An E(b -y) = 0ṃ285 ± 0ṃ004 indicates the star is heavily reddened. The most recent Kurucz model-atmosphere calibrations indicate ‹Teffŕ = 7430 ± 80 and ⟨log g⟩ = 3.74 ± 0.13. [Fe/H] = — 0.2 ± 0.2 implies V567 Oph has approximately solar metal abundance. Attempts to employ the surface brightness and Baade-Wesselink methods to determine the radius of the star give inconclusive results. A period, radius relation for dwarf Cepheids indicates a radius of 3.2 ± 0.2 R⊙ . The data indicate that the absolute magnitude is M v = + 1ṃ1 ± 0ṃ1, the distance is 620 ± 30 pc, and the mass is 1.85 ± 0.2𝕸⊙

New photometric (uvby β) and spectrographic observations of the dwarf Cepheid BP Peg are described. A reddening value, E(b — y) = 0ṃ067, is derived from the photometry. Intrinsic (b — y), m₁ and c₁ values used in conjunction with a model-atmosphere grid yield a mean effective temperature, = 7470 K, a mean surface gravity, = 3.85, and [Fe/H] = -0.08. The pulsation theory and stellar model sequences yield Mbol = 1ṃ4, a mass = 1.85 𝕸⊙, and age of 1.3 × 10⁹ yrs. The radial-velocity data indicate a mean radial velocity of -30 km s⁻¹ and a total velocity range of 36 km s⁻¹.