![]() Problem 657: VAP- Exploring the Density of Gas in the Atmosphere Students explore how gas density is related to the average distances between molecules in the air using a simple geometric mode of a cube with 64 cells. Problem 658: VAP- Exploring Gas Density in Space ![]() Students estimate examine the density of gas in the Van Allen belts and use it to estimate how many atoms the Van Allen Probes will encounter. ![]() Problem 659: VAP- Exploring the Outer Atmosphere � Gas Density Students examine the mass, data, pointing accuracy and power of the SAGE-III instrument and use unit conversions to translate the units into pounds, watts and degrees. Problem 660: SAGE- Some Basic Properties of the SAGE-III Instrument Students use a data graph to identify the ozone layer from its concentration of ozone, and use parts-per-million to compare ozone concentration to the atmosphere density. Problem 661: SAGE- Measuring Stratospheric Ozone with SAGE-III Students learn about parts-per-million units by working with percentage and counting squares in different types of grids. Problem 662: SAGE- Measuring Aerosol Concentration in Parts per Million Students determine how many sunrises and sunset the ISS observes every day. Problem 666: SAGE - The Ground Track of the International Space Station Students estimate a function for logarithmic data that describes the number of meteor impacts on Earth every year. Problem 667: Exploring Power-laws: Meteor impacts Students integrate a logarithmic function to estimate the number of tons of meteoritic debris that Earth collects every year. Problem 668: Meteor Impacts � How Much Stuff? Students use the elliptical equation for the orbit of NASAs Van Allen Probes spaccecraft, and a circle representing the location of the new Van Allen belt, to find where they intersect along the orbit of the spacecraft. Problem 669: VAB - Exploring the Third Belt with the Van Allen Probes Students study radiation dose units and estimate the exposures for a human living on the ground an astronaut in the ISS, and the Van Allen belt environment. Problem 671:VAB - The Van Allen Probes and Radiation Dose Students create a simple mathematical model of the radiation exposure to the Van Allen Belt Probe satellites as they travel through the Van Allen belts. Problem 672:VAB - Modeling the Radiation Dose of the Van Allen Probes Students use a detailed model of the path of a satellite and the radiation dose rate along the path to calculate the total radiation dose to the spacecraft. Problem 673:VAB - An Improved Model for Van Allen Belt Radiation Dose Students work with coordinate vectors describing the corners of the roof of a house, calculate the area of the roof using dot products calculate the normal vector to the roof using cross products and the amount of sunlight striking the roof using dot products to determine how much solar power could be generated by solar panels on the roof. Problem 681:A Practical Application of Vector Dot and Cross Products Opacity, light transmission and Earth limb sunset and sunrise observations of Also includes two interactive Excel Spreadsheets to study This book explores the properties of atmospheric aerosols being studied by the NASAQ SAGE III instrument onboard the International Space Station. SAGE III Explores Aerosol Math (2014: 18 Problems 2 Interactive Labs) ![]() Detailed discussions of radiation units, and the affects of space radiation on living and working in space. A companion book to Space Weather Math.Īn introduction to radiation measurement, dosimetry and how your lifestyle affects how much radiation your bodyĪbsorbes. ![]() This book explores many different aspects of magnetism from magnetic lines of force to pressure and energy and includes examples from across the solarsystem including the sun and earth. Allen datagraph c512 how to#Students learn about instrument resolution and sensitivity as well as how to calibrate a common digital camera, and how to design a satellite imaging system. Examples are culled from earth science and astronomy missions. This book covers many topics in remote sensing, satellite imaging, image analysis and interpretation. Six appendices and an extensive provide a rich 150-year context for why space whether is an important issue. Students explore the way in which the sun interacts with Earth to produce space weather, and the ways in whichĪstronomers study solar storms to predict when adverse conditions may pose a hazard for satellites and human Home electric bills and national and international energy consumption. Students explore the simple mathematics behind global climate change through analyzing graphical data, dataįrom NASA satellites, and by performing simple calculations of carbon usage using ![]()
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