By Tyler Hamilton
EISBN: 978-1-77041-008-4, 978-1-77090-073-8
Climate swap suggestions so loopy they only may perhaps paintings! A look for the modern Nikola Tesla - thought of a mad scientist via his society for predicting worldwide warming greater than a hundred years in the past - fuels this research of weather matters, which introduces thinkers and inventors who're operating to discover attainable methods out of the strength concern. From Louis Michaud, a retired refinery engineer who claims we will be able to harness the strength of synthetic tornadoes, to a professor and a businessman who're working an organization that genetically modifies algae so it might probably secrete ethanol certainly, those contributors and their unorthodox tools are profiled via first-person interviews, exposing the social, monetary, monetary, and private boundaries that hinder them from making an influence with their rules. the present country of eco-friendly power applied sciences, reminiscent of sun, wind, biofuels, clever grid, and effort garage, can also be explored, making a experience of desire opposed to a backdrop of weather dread.
Read Online or Download Mad Like Tesla: Underdog Inventors and Their Relentless Pursuit of Clean Energy PDF
Best science books
Updates and expands technology fiction student James Gunn's definitive, Hugo Award-winning severe quantity approximately Isaac Asimov and his contributions to the technological know-how fiction style.
Whilst was once radium came across? who're Dmitri Mendeleev and Glenn T. Seaborg? Who found uranium’s radioactivity? Which point comes in handy for courting the age of Earth? And why doesn’t gold have a systematic identify? 30-Second parts offers you with the very foundations of chemical wisdom, explaining concisely the 50 most important chemical parts.
Technology fiction novel
This booklet covers the weather fascinated about attaining sustainability in textiles and garments quarter. The chapters lined in 3 volumes of this sequence identify conceal the entire targeted parts earmarked for reaching sustainable improvement in textiles and garments undefined. This 3rd quantity highlights the components relating the regulatory points and sustainability criteria acceptable to textiles and garments offer chain.
- Freedom Evolves
- Prehistory: The Making of the Human Mind
- Solar Cosmic Rays: Fundamentals and Applications
- Progress in Ultrafast Intense Laser Science II
Extra info for Mad Like Tesla: Underdog Inventors and Their Relentless Pursuit of Clean Energy
May not be copied, scanned, or duplicated, in whole or in part. Due to electronic rights, some third party content may be suppressed from the eBook and/or eChapter(s). Editorial review has deemed that any suppressed content does not materially affect the overall learning experience. Cengage Learning reserves the right to remove additional content at any time if subsequent rights restrictions require it. 42 Experiment 7 Analysis of an Unknown Chloride Experimental Procedure From the stockroom, obtain a buret, a 100 mL volumetric flask containing your concentrated unknown chloride solution, and a 10 mL volumetric pipet.
Place the stopper in the flask (see Appendix IV), and holding the stopper in place with the index finger or palm of one hand, invert the flask 15 times to thoroughly mix the solution. 00 mL of your diluted chloride solution to a 250 mL Erlenmeyer flask, and add about 50 mL of DI water. 02 g) of dextrin, and swirl to dissolve—it’s not important that all of it dissolves. Add two drops of dichlorofluorescein indicator. Using the graduated cylinder at the reagent shelf, measure out about 100 mL of the standardized AgNO3 solution into a clean, dry 125-mL Erlenmeyer flask.
If you heat too strongly, spattering will occur and you may lose some sample. When the sample is dry, gradually increase the flame intensity, finally getting the bottom of the crucible to red heat. Heat at full flame strength for 10 minutes. Allow the crucible to cool for 10 minutes. Weigh it, with its cover and contents, on the analytical balance, recording the mass. DISPOSAL OF REACTION PRODUCTS. Dispose of the sample by dissolving it in water and pouring it down the drain. Copyright 2011 Cengage Learning.
Mad Like Tesla: Underdog Inventors and Their Relentless Pursuit of Clean Energy by Tyler Hamilton