Philo T. Farnsworth (1906–1971) has been called the "forgotten father of television." He grew up in Utah and southern Idaho, and was described as a genius by those who knew and worked with him. With only a high school education, Farnsworth drew his first television schematic for his high school teacher in Rigby, Idaho. Subsequent claims and litigation notwithstanding, he was the first to transmit a television image.

Farnsworth filed ten patents between 1927 and 1929 for camera tubes (transmitting), circuitry, and the cathode ray tube (viewing). After his early years as an inventor in San Francisco, he worked as an engineer, doing battle with RCA in the 1930s over patent rights, formed the Farnsworth Television Company in the 1940s, and worked for IT&T after their purchase of the Farnsworth enterprises. Every television set sold utilized at least six of his basic patents.

Because of endless legal wrangling with RCA over patent rights, he received very little financial reward for his television patents. Donald Godfrey examines the genius and the failures in the life of Philo Farnsworth as he struggled to be both inventor and entrepreneur.

Internationally renowned for its pioneering role in the ecological restoration of tallgrass prairies, savannas, forests, and wetlands, the University of Wisconsin Arboretum contains the world’s oldest and most diverse restored ecological communities. A site for land restoration research, public environmental education, and enjoyment by nature lovers, the arboretum remains a vibrant treasure in the heart of Madison’s urban environment.
    Pioneers of Ecological Restoration chronicles the history of the arboretum and the people who created, shaped, and sustained it up to the present. Although the arboretum was established by the University of Wisconsin in 1932, author Franklin E. Court begins his history in 1910 with John Nolen, the famous landscape architect who was invited to create plans for the city of Madison, the university campus, and Wisconsin state parks. Drawing extensive details from archives and interviews, Court follows decades of collaborative work related to the arboretum’s lands, including the early efforts of Madison philanthropists and businessmen Michael Olbrich, Paul E. Stark, and Joseph W. “Bud” Jackson.
    With labor from the Civilian Conservation Corps during the 1930s Depression, University of Wisconsin scientists began establishing both a traditional horticultural collection of trees and plants and a completely new, visionary approach to recreate native ecosystems. Hundreds of dedicated scientists and staff have carried forward the arboretum’s mission in the decades since, among them G. William Longenecker, Aldo Leopold, John T. Curtis, Rosemary Fleming, Virginia Kline, and William R. Jordan III.
    This archival record of the arboretum’s history provides rare insights into how the mission of healing and restoring the land gradually shaped the arboretum’s future and its global reputation; how philosophical conflicts, campus politics, changing priorities, and the encroaching city have affected the arboretum over the decades; and how early aspirations (some still unrealized) have continued to motivate the work of this extraordinary institution.

Technologies such as synthetic biology, nanotechnology, artificial intelligence, and geoengineering promise to address many of our most serious problems, yet they also bring environmental and health-related risks and uncertainties. Moreover, they can come to dominate global production systems and markets with very little public input or awareness. Existing governance institutions and processes do not adequately address the risks of new technologies, nor do they give much consideration to the concerns of persons affected by them.

Instead of treating technology, health, and the environment as discrete issues, Albert C. Lin argues that laws must acknowledge their fundamental relationship, anticipating both future technological developments and their potential adverse effects. Laws should encourage international cooperation and the development of common global standards, while allowing for flexibility and reassessment.