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Rank the following in order from most precise to least precise 2.41 5 6.345 12000?
6.345 2.41 5 12,000
Rank the following in order from most precise to least precise 1500 1580.9 1580 1200.001?
1: 1,200.001 2: 1,580.9 3: 1,580 4: 1,500 APEX
What is the precise measurement of 6 cm or 2.5 cm?
2.5 cm is more precise.
What is the most precise name for quadrilateral ABCD with vertices A (-4 -4) B (-4 -2) C (-1 -2) and D (-1 -4)?
It is a rectangle with sides of 2 by 3
What are 3 methods to solving a system of linear equations?
u can use gauss jorden or gauss elimination method for solving linear equation u also use simple subtraction method for small linear equation also.. after that also there are many methods are available but above are most used
What methods of timekeeping are the least precise?
Observing the seasons
What method of timekeeping is the least precise?
using a calender
How have timekeeping methods improved?
Through improvements in mechanical and electronic technology.
How does atomic time synchronization ensure accurate and precise timekeeping across various devices and systems?
Atomic time synchronization uses highly accurate atomic clocks to establish a standard time reference. This reference time is then distributed to various devices and systems, ensuring that they all keep time accurately and precisely. By synchronizing to the atomic clock, devices can maintain consistent timekeeping and avoid discrepancies that can occur with traditional timekeeping methods.
Are ancient water clocks reliable?
Ancient water clocks, or clepsydras, were innovative timekeeping devices that relied on the steady flow of water to measure time. While they offered a more consistent measure than sundials, their reliability was affected by factors such as water temperature, impurities, and the design of the clock itself. Variations in water flow and evaporation rates could lead to inaccuracies. Overall, while helpful, they were not as precise as modern timekeeping methods.
What is a good sentence for chronometer?
She frequently referred to any clock as a chronometer .
Why did Christian Huygens invented the pendulum clock?
Christian Huygens invented the pendulum clock in 1656 to improve timekeeping accuracy. The use of a pendulum allowed for more precise measurements of time, making the clock more reliable than previous timekeeping devices.
Which is the most accurate measurement of time?
The most accurate measurement of time is provided by atomic clocks, which are based on the vibration of atoms, such as cesium or rubidium. These clocks are used as the international standard for timekeeping and are incredibly precise, losing only a second every few million years.
Why was the pendelum clock invented?
The pendulum clock was invented to improve timekeeping accuracy. It was developed by Dutch scientist Christiaan Huygens in the 17th century, using the regular swing of a pendulum to regulate the movement of the clock's gears. This led to more precise timekeeping compared to earlier mechanical clocks.
Where do clocks come from?
Clocks originated from early timekeeping devices that sought to measure the passage of time. The first known timekeeping devices were sundials used by ancient civilizations, which relied on the position of the sun's shadow. Water clocks and hourglasses followed, providing more consistent measurements. The mechanical clock emerged in the Middle Ages, leading to the development of more precise and complex timekeeping instruments we use today.
How precise is an atom clock?
An atomic clock is extremely precise, typically accurate to within a few billionths of a second per day. These clocks use the natural oscillations of atoms to keep time, making them one of the most accurate timekeeping devices available.
When was The Disregard of Timekeeping created?
The Disregard of Timekeeping was created in 1989.
