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2.1: Frequency, Frequency Tables, and Levels of Measurement

https://math.libretexts.org/Courses/Heartland_Community_College/HCC%3A_Introduction_to_Statistics_(Lathrop)/02%3A_Visualizing_Data/2.1%3A_Frequency_Frequency_Tables_and_Levels_of_Measurement

Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the ne...Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the nearest tenth. Round off your final answer to one more decimal place than was present in the original data. This means that if you have data measured to the nearest tenth of a unit, report the final statistic to the nearest hundredth.

1.3: Frequency and Frequency Tables

https://math.libretexts.org/Courses/Mission_College/Math_10%3A_Elementary_Statistics_(Hwang)/01%3A_Sampling_and_Data/1.04%3A_Frequency_Frequency_Tables_and_Levels_of_Measurement

Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the ne...Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the nearest tenth. Round off your final answer to one more decimal place than was present in the original data. This means that if you have data measured to the nearest tenth of a unit, report the final statistic to the nearest hundredth.

1.4: Frequency, Frequency Tables, and Levels of Measurement

https://math.libretexts.org/Courses/Coastline_College/Math_C160%3A_Introduction_to_Statistics_(Tran)/01%3A_Sampling_and_Data/1.04%3A_Frequency_Frequency_Tables_and_Levels_of_Measurement

Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the ne...Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the nearest tenth. Round off your final answer to one more decimal place than was present in the original data. This means that if you have data measured to the nearest tenth of a unit, report the final statistic to the nearest hundredth.

8.4: Sinusoidal Models

https://math.libretexts.org/Courses/Cosumnes_River_College/Math_375%3A_Pre-Calculus/08%3A_Graphs_of_the_Trigonometric_Functions/8.04%3A_Sinusoidal_Models

This section discusses building sinusoidal models using the sine function to represent real-world phenomena, such as wave patterns. It covers key properties of sinusoidal functions, including amplitud...This section discusses building sinusoidal models using the sine function to represent real-world phenomena, such as wave patterns. It covers key properties of sinusoidal functions, including amplitude, period, phase shift, and vertical shift. It explains how these properties relate to physical concepts like frequency and angular frequency. Examples, such as modeling the height of a Ferris wheel rider over time, illustrate the application of these models in practical scenarios.

5.4: Sinusoidal Models

https://math.libretexts.org/Courses/Cosumnes_River_College/Math_373%3A_Trigonometry_for_Calculus/05%3A_Graphs_of_the_Trigonometric_Functions/5.04%3A_Sinusoidal_Models

This section discusses building sinusoidal models using the sine function to represent real-world phenomena, such as wave patterns. It covers key properties of sinusoidal functions, including amplitud...This section discusses building sinusoidal models using the sine function to represent real-world phenomena, such as wave patterns. It covers key properties of sinusoidal functions, including amplitude, period, phase shift, and vertical shift. It explains how these properties relate to physical concepts like frequency and angular frequency. Examples, such as modeling the height of a Ferris wheel rider over time, illustrate the application of these models in practical scenarios.

2.4: Frequency, Frequency Tables, and Levels of Measurement

https://math.libretexts.org/Under_Construction/Purgatory/Remixer_University/Username%3A_Matthew.Lathrop@heartland.edu/test_cb2/2%3A_Sampling_and_Data/2.4%3A_Frequency%2C_Frequency_Tables%2C_and_Levels_of_Measurement

Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the ne...Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the nearest tenth. Round off your final answer to one more decimal place than was present in the original data. This means that if you have data measured to the nearest tenth of a unit, report the final statistic to the nearest hundredth.

1.4: Frequency, Frequency Tables, and Levels of Measurement

https://math.libretexts.org/Courses/Coastline_College/Math_C160%3A_Introduction_to_Statistics_(Lee)/01%3A_Sampling_and_Data/1.04%3A_Frequency_Frequency_Tables_and_Levels_of_Measurement

Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the ne...Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the nearest tenth. Round off your final answer to one more decimal place than was present in the original data. This means that if you have data measured to the nearest tenth of a unit, report the final statistic to the nearest hundredth.

2.1: Frequency, Frequency Tables, and Levels of Measurement

https://math.libretexts.org/Under_Construction/Purgatory/Remixer_University/Username%3A_Matthew.Lathrop@heartland.edu/Introduction_to_Statistics_(Lathrop)_OFFICIAL/02%3A_Visualizing_Data/2.1%3A_Frequency%2C_Frequency_Tables%2C_and_Levels_of_Measurement

Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the ne...Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the nearest tenth. Round off your final answer to one more decimal place than was present in the original data. This means that if you have data measured to the nearest tenth of a unit, report the final statistic to the nearest hundredth.

1.3: Frequency, Frequency Tables, and Levels of Measurement

https://math.libretexts.org/Courses/Mission_College/Math_10%3A_Elementary_Statistics_(Sklar)/01%3A_Sampling_and_Data/1.03%3A_Frequency_Frequency_Tables_and_Levels_of_Measurement

Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the ne...Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the nearest tenth. Round off your final answer to one more decimal place than was present in the original data. This means that if you have data measured to the nearest tenth of a unit, report the final statistic to the nearest hundredth.

4.3: Visual Summaries of Data

https://math.libretexts.org/Courses/Mt._San_Jacinto_College/Ideas_of_Mathematics/04%3A_Descriptive_Statistics/4.03%3A_Visual_Summaries_of_Data

Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the ne...Some calculations generate numbers that are artificially precise. It is not necessary to report a value to eight decimal places when the measures that generated that value were only accurate to the nearest tenth. Round off your final answer to one more decimal place than was present in the original data. This means that if you have data measured to the nearest tenth of a unit, report the final statistic to the nearest hundredth.

8.4: Sinusoidal Models

https://math.libretexts.org/Courses/Cosumnes_River_College/Math_384%3A_Foundations_for_Calculus/08%3A_Graphs_of_the_Trigonometric_Functions/8.04%3A_Sinusoidal_Models

This section discusses building sinusoidal models using the sine function to represent real-world phenomena, such as wave patterns. It covers key properties of sinusoidal functions, including amplitud...This section discusses building sinusoidal models using the sine function to represent real-world phenomena, such as wave patterns. It covers key properties of sinusoidal functions, including amplitude, period, phase shift, and vertical shift. It explains how these properties relate to physical concepts like frequency and angular frequency. Examples, such as modeling the height of a Ferris wheel rider over time, illustrate the application of these models in practical scenarios.

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