To calculate Delta t, you would subtract Universal Time or UT from Terrestrial Time or TT. Delta t would be the difference.
This is difficult. We are not told what it is we are to calculate. We are not told how the velocity is changing (which it does, implied by the word "initial"). Suggest re-writing the question.
Number of runs given by the bowler divided by no.of wickets taken by him at the same time....
You can measure distance with a measuring stick or tape. Otherwise, if you want to calculate it based on some other data, please clarify WHAT is given.
a challenge means taking the risk of doing something, while limitation means the period of time given to do the given work....
You can calculate the longitude of a place when time is given using the Greenwich solar time.
By knowing the sun time on the prime meridian and the local sun time, one can determine their east-west position on the Earth's surface. The time difference between the two locations can be used to calculate the longitudinal difference, helping to pinpoint the exact location.
To determine the frequency of a longitudinal wave, you can measure the number of complete oscillations the wave makes in a given time period. This can be done by calculating the cycles per second, which is the frequency of the wave in hertz (Hz). You can also use the wave's wavelength and speed to calculate its frequency using the formula: frequency = speed / wavelength.
there is time difference ,people in eastern region start there routine early than people in western region.
The longitudinal distance for a time difference of one hour is approximately 15 degrees. This is because Earth rotates 360 degrees in 24 hours, so in one hour it covers 1/24th of the total 360 degrees, which equals 15 degrees.
The time of a given location on Earth is determined by its position within a time zone. Time zones are based on longitudinal lines and are typically one hour apart. The time is also influenced by whether the location observes daylight saving time.
Distance over time.
A complete globe, including Earth, always has 360 degrees. There can be an infinite number of longitudinal lines because longitudinal lines are imaginary constructs and not physical features of Earth itself, so the number of degrees between those longitudinal lines is dependent on the number of longitudinal lines, assuming the longitudinal lines are equidistant. To calculate the number of degrees between these equidistant longitudinal lines, divide 360 degrees by the number of longitudinal lines. A model globe of Earth is typically given 36 lines of longitude. Using the calculation given above, the angle between adjacent longitudinal lines is 360 degrees divided by 36 lines of longitude, or 10 degrees. If 24 lines of longitude are used to represent the 24 time zones, the angle between adjacent longitudinal lines is 360 degrees divided by 24 lines of longitude, or 15 degrees.
There is not enough information to calculate the answer.
thank you
To calculate Delta t, you would subtract Universal Time or UT from Terrestrial Time or TT. Delta t would be the difference.
You can calculate the time difference between two locations by dividing the difference in longitude by 15 degrees, as each 15-degree interval represents a one-hour time difference. East is positive and west is negative when determining the direction of the time change.