At home in the most up-to-date atmospheres, this wall clock combines a Merlot Cherry finish with brushed nickel accents. The brushed nickel-finished pendulum and bezel add to the contemporary styling. The crisp white dial features black bar hour markers and black hour and minute hands. Finished in Merlot Cherry, a very dark maroon finish that is leaning toward black on an injected molded body. Quartz, battery operated movement.
Clocks have a secret life: they're responsible for much more than telling time. From pocket watches to grandfather clocks, a time piece has usually been used to make a statement about the owner as much as it has about the hour. With this clock, you can make a statement in rustic style. Featuring numerals in a lighter inset wood, this piece measures 29.75'' H x 29.75'' W x 2.38'' D. Because both the hands and wood are dark, we recommend displaying this piece in a well-lit area for easier...
This item is a new-Never removed from box-SEIKO brand musical and movement wall clock. Clock and packaging in mint condition. Plays 24 different melodies and the 6-piece dial opens and turns during hourly melodies. Rotating pendulum and dial has Swarovski crystal components. This is the now retired “Special Collector’s Edition” considered one of the finer of the melodies clocks! Batteries are included. Comes from pet and smoke free home. As always Thank you for your interest!
The Howard Miller 625-542 Brass Works is an oversized, large wall clock featuring a metal outer frame finished in antique brass and accented by four decorative antique brass finished screws applied to the dial. The dial features antique brass-finished gears viewed through an open center. The gear in the middle of the clock turns as a second hand would rotate.. Quartz, battery-operated movement requires 1 AA battery. One year warranty and Free Shipping.
The timekeeping element of a quartz clock consists of a ring of quartz about 2.5 inches (63.5 mm) in diameter, suspended by threads and enclosed in a heat-insulated chamber. Electrodes are attached to the surfaces of the ring and connected to an electrical circuit in such a manner as to sustain oscillations. Since the frequency of vibration, 100,000-hertz, is too high for convenient time measurement, it is reduced by a process known as frequency division or demultiplication and applied to a synchronous motor connected to a clock dial through mechanical gearing. If a 100,000 hertz frequency, for example, is subjected to a combined electrical and mechanical gearing reduction of 6,000,000 to 1, then the second hand of the synchronous clock will make exactly one rotation in 60 seconds. The vibrations are so regular that the maximum error of an observatory quartz-crystal clock is only a few ten-thousandths of a second per day, equivalent to an error of one second every 10 years.
This color-changing option features a radio, built-in wake-up tones, Bluetooth music streaming (so you can wake up to your favorite playlist), and USB-charging capacity to keep your phone juiced. You can preset two alarms, cycle through colors, and snooze, and even use the alarm clock's speakerphone and microphone functions to answer phone calls from paired devices. Basically, this clock does everything except your laundry.
late 14c., clokke, originally "clock with bells," probably from Middle Dutch clocke (Dutch klok) "a clock," from Old North French cloque (Old French cloke, Modern French cloche), from Medieval Latin (7c.) clocca "bell," probably from Celtic (cf. Old Irish clocc, Welsh cloch, Manx clagg "a bell") and spread by Irish missionaries (unless the Celtic words are from Latin); ultimately of imitative origin.
In Europe, between 1280 and 1320, there is an increase in the number of references to clocks and horologes in church records, and this probably indicates that a new type of clock mechanism had been devised. Existing clock mechanisms that used water power were being adapted to take their driving power from falling weights. This power was controlled by some form of oscillating mechanism, probably derived from existing bell-ringing or alarm devices. This controlled release of power—the escapement—marks the beginning of the true mechanical clock, which differed from the previously mentioned cogwheel clocks. Verge escapement mechanism derived in the surge of true mechanical clocks, which didn't need any kind of fluid power, like water or mercury, to work.