A method for compensating the rate as a function of the temperature of a watch (1). A water-resistant case (2) contains a movement (3) with an oscillator (4), in an internal volume V occupied by n moles of a gas of constant R, where the pressure coefficient Cp and the humidity coefficient Ch of the movement (3) are determined, an optimal value Cto of the thermal coefficient Ct of the oscillator (4) is calculated defining the relatively linear variation of the rate thereof as a function of the temperature T, compensating the pressure and humidity deviations. The pressure P and/or the constant R and/or the quantity of gas and/or the temperature T are varied in the case. In the factory, the thermal coefficient of elastic return, and/or the quantity and/or the nature of the gas in the watch, and/or the internal volume of the case (2) are modified.

A method for compensating the rate as a function of the temperature of a watch (1). A water-resistant case (2) contains a movement (3) with an oscillator (4), in an internal volume V occupied by n moles of a gas of constant R, where the pressure coefficient Cp and the humidity coefficient Ch of the movement (3) are determined, an optimal value Cto of the thermal coefficient Ct of the oscillator (4) is calculated defining the relatively linear variation of the rate thereof as a function of the temperature T, compensating the pressure and humidity deviations. The pressure P and/or the constant R and/or the quantity of gas and/or the temperature T are varied in the case. In the factory, the thermal coefficient of elastic return, and/or the quantity and/or the nature of the gas in the watch, and/or the internal volume of the case (2) are modified.

The present invention relates to collection of water after being exposed to the moonlight. The water resource for exposure under moonlight over any period of time and the storage of such collected water so obtained from any resource. The water resource collected and composed of but not limited to collection of water from resources like river, spring, rain, snow, well water, tap water, distilled bottled water, that is accumulated. The period during which water is exposed to the moonlight can have a combination of significance but not limited to: zodiac, religious, astronomical, calendar, astrological, numerology etc. Further, the exposed water obtained is packed and labeled based on the religious, astronomical, astrological, numerological significance classified or falling under the time when the water resource or the water stored in the container is exposed to the source of moonlight. The water resource collected and composed of but not limited to collection of water from resources like river, spring, rain, snow, tap water, dew, distilled bottled water, well water that is accumulated or placed.

A watch can include a first watch band portion and a second watch band portion both configured to be coupled with a mechanical watch. The watch can further include a circuit board associated with a controller, the circuit board and controller being removably retained by a clasp. The circuit board and the controller can be electronically and operatively independent from the mechanical watch.

A watch can include a first watch band portion and a second watch band portion both configured to be coupled with a mechanical watch. The watch can further include a circuit board associated with a controller, the circuit board and controller being removably retained by a clasp. The circuit board and the controller can be electronically and operatively independent from the mechanical watch.

Embodiments of a watch can include a watch having an analog watch face, a first watch band portion, a second watch band portion and an analog watch face. The watch can include a digital clasp having a digital display and a circuit board associated with a controller.

Embodiments of a watch can include a watch having an analog watch face, a first watch band portion, a second watch band portion and an analog watch face. The watch can include a digital clasp having a digital display and a circuit board associated with a controller.

A watch can include a mechanical watch, the mechanical watch having a mechanical watch housing, and a mechanical watch face retained at least partially within the mechanical watch housing; a first watch band portion; and a second watch band portion. The watch can further include a circuit board associated with a controller, the circuit board and controller being at least partially retained by a clasp. The circuit board and the controller can be electronically and operatively independent from the mechanical watch.

A watch can include a mechanical watch, the mechanical watch having a mechanical watch housing, and a mechanical watch face retained at least partially within the mechanical watch housing; a first watch band portion; and a second watch band portion. The watch can further include a circuit board associated with a controller, the circuit board and controller being at least partially retained by a clasp. The circuit board and the controller can be electronically and operatively independent from the mechanical watch.

An example apparatus includes a first pinion component comprising a first pinion and a first cylinder centered therein, the first cylinder extending from a first surface of the first pinion, the first pinion having a first via and a second via; a first electrical path extending from a second surface of the first pinion, through the first via to the first surface of the first pinion, and further to a first surface portion of the first cylinder; a second electrical path extending from the second surface of the first pinion, through the second via to the first surface of the first pinion, and further to a second surface portion of the first cylinder, wherein the second electrical path is electrically isolated from the first electrical path.