Undergrad STEM classes these days require 3-5+ hours of study per hour of lecture. Shit is hard, and it comes at you fast. It's a 60hr/wk job, and over 80% of STEM grads take over 5 years to get an undergrad. And it's expensive af. It has to be considered irrespective of skiing.
That said, has anyone mentioned Colorado School of Mines yet? Highly respected [and endowed...and selective... ] and can take a nerd anywhere a Cal/Ivy undergrad degree can.
https://www.youtube.com/watch?v=rKh7QwsrbMY
Geodesy informs so many applied earth and space sciences that geodesy grads are 1% technocrats of the planet. Ohio State geodetic science grads literally write their own tickets in government, academia, and industry worldwide. Acceptance and standing in the program will get him secondments to any university in the world, should he so desire, and pretty much anyone who can handle the program qualifies for the kind of finaid you don't have to pay back...
What is Geodesy?
Geodesy is the science of determining the size and shape of the Earth (including its temporal variation) using measurements primarily (today) of distance, time, and gravity. Being one of the oldest sciences, with a history of more than two thousand years, the traditional measurements were mostly associated with land surveying (distance and direction measurements of landmarks and celestial objects) and gravity observations (to determine the geoid, as reference surface for heights, and the plumb direction). The age of satellites, radio and optical science, and computer technology have completely transformed these methods and enabled geodesy to branch into many of the Earth sciences where the exquisite measurement precision has enabled observations of ocean circulation, terrestrial hydrology, tides, solid Earth deformation, tectonic plate motions, ice sheet mass change, ionospheric and atmospheric changes, Earth rotation variation, and other geodynamical phenomena with unprecedented detail and accuracy.
Contemporary geodesy utilizes the latest in mathematical modeling, research in physics, astrometry, scientific computations, and statistical analysis to aid in the understanding of ocean currents, sea level rise, the world's hydrological cycles, atmospheric conditions, global climate change, post-glacial rebound, and elastic deformation, particularly as it relates to natural hazards, such as earthquakes, volcanoes, and flooding. In these Earth science applications, accurate terrestrial reference frames, high-resolution global gravity models, and precise time keeping are of paramount and fundamental importance. Geodesy, of course, continues the tradition of forming the backbone for all national and international datums and reference systems needed to establish three-dimensional positional control of regional and global networks of terrestrial points, as well as the world’s civilian and military satellite missions to the Earth and beyond. Many geodetic principles and techniques also have found application in studies of the Moon, other planets, and their satellites.
https://earthsciences.osu.edu/resear...ademic-program
