Podcasts about ideal gas law

Beautiful spring weather... BTW - I meant to say IDEAL GAS LAW, not natural gas law (I need more sleep)   LINKS: https://www.cocorahs.org/ Cloud ebook - https://whatsthiscloud.com/ebook Jan Curtis Flickr Page - https://www.flickr.com/photos/cloud_spirit/ All New Highly Accurate TROPO Rain Gauge - USE CODE RAINDAY FOR 10% OFF https://measurerain.com  DayWeather Journal for Kids  https://www.amazon.com/dp/B09M57Y7J1?ref_=pe_3052080_397514860

According to the IEA, heat accounts for almost half of final global energy consumption, with approximately two-thirds currently sourced from hydrocarbons. Net zero energy scenarios anticipate that heating can be predominantly electrified.  In pursuit of lower-carbon buildings, high-efficiency air-source heat pumps offer a promising decarbonization and energy reduction solution. Further, the Canadian federal government and some provinces support the transition to air-source heat pumps by subsidizing their purchases.In this episode, Jackie and Peter review the ARC Energy Research Institute's analysis of heat pumps for northern climates like Canada. Danielle Vitoff, Director of Energy Transition, Sustainability, and Infrastructure at Guidehouse, a global consulting firm, joins the discussion. Key questions covered in this podcast include: How do air-source heat pumps operate, and what makes them so efficient? Why does the efficiency of a heat pump decline in colder temperatures? How do heat pumps' upfront capital and operating costs compare to alternatives like natural gas or fuel oil furnaces? How could broad-scale switching to electric heat pumps affect the electricity grid? Considering the cold climate, are air-source heat pumps a good fit for Canada? Content referenced in this podcast: CAPP Data Centre US residential heat pumps: the private economic potential and its emissions, health, and grid impacts (Source: US Department of Energy) Pathways for British Columbia to Achieve its GHG Reduction Goals (Source: Guidehouse, prepared for Fortis BC) Please review our disclaimer at: https://www.arcenergyinstitute.com/disclaimer/  Check us out on social media:  X (Twitter): @arcenergyinst LinkedIn: @ARC Energy Research Institute  Subscribe to ARC Energy Ideas Podcast Apple Podcasts Google Podcasts Amazon Music Spotify  

This week, we are delighted to present a previous episode of In Search of Green Marbles that featured Jena Roche, Weiss's Director of Investor Relations and Marketing. But the timing is not coincidental, as tomorrow, August 26th, is Women's Equality Day. Thanks to a 1973 Joint Resolution of Congress, Women's Equality Day was established to commemorate August 26th,1920, which marked the day in which Secretary of State Bainbridge Colby quietly signed the recently ratified 19th Amendment in his home – without any fanfare – that gave American women the right to vote. In doing so, a movement that started over a century earlier could finally declare victory.The journey towards equality beyond suffrage has made many strides since that day 103 years ago, but it's been a struggle. For example, it took all the way to 1974 and the enactment of the The Equal Credit Opportunity Act, before women were able to apply for credit cards and other loans in their own name, regardless of their marital status. And believe it or not, it took all the way until May 12th, 1987, before the first coeducation class graduated from Columbia College. So, while women have made great strides, Weiss believes that it's important to remember that the achievements made by women have been hard fought and have taken way more time than they should have. And the fight for progress continues, which is why we wanted to take this week to recognize one of our formidable women warriors.Please check important disclosures at the end of the episode.Time Stamps:Why is Jena enamored with manatees? [8:08]Why did Jena choose to attend Wellesley College despite the tuition cost? [10:31]How did Jena get to Wall Street after majoring in Biochemistry? [18:50]How does Jena apply the Ideal Gas Law formula, PV=nRT, in her daily life? [21:00] How did Jena transition from banking into her role in Marketing & IR at Weiss? [22:14]What advice does Jena have for aspiring women who are starting their careers on Wall Street? [32:15]How did George Weiss, Jordi Visser, and other finance professionals at Weiss help Jena think about her own investment decisions? [36:19]Resources:Women's Equality Day OverviewThe Equal Credit Opportunity ActClass of 1987 Heralds New Era at Columbia Disclosures: This podcast and associated content (collectively, the “Post”) are provided to you by Weiss Multi-Strategy Advisers LLC (“Weiss”). The views expressed in the Post are for informational purposes only and are subject to change without notice. Information in this Post has been developed internally and is based on market conditions as of the date of the recording from sources believed to be reliable. Nothing in this Post should be construed as investment, legal, tax, or other advice and should not be viewed as a recommendation to purchase or sell any security or adopt any investment strategy. Past performance is no guarantee of future results. You should consult your own advisers regarding business, legal, tax, or other matters concerning investments. Any health-related information shared on the podcast is not intended as medical advice or for use in self-diagnosis or treatment. Please consult a qualified healthcare professional before acting upon any health-related information on the podcast. Weiss has no control over information at any...

Weiss's Director of Investor Relations and Marketing reflects on her accomplishments, career path, debt, and investments.This podcast was recorded on Wednesday, March 8th, which is International Women's Day. To celebrate this important day, as well as the fact that March is Women's History Month, G3 is delighted to have Jena Roche, Weiss's Director of Investor Relations and Marketing, on the podcast. Jena has a compelling background and story, and she was kind enough to take time out of her day to discuss her journey and to share her insights with us. Please check important disclosures at the end of the episode.Time Stamps:Why is Jena enamored with manatees? [8:08]Why did Jena choose to attend Wellesley College despite the tuition cost? [10:31]How did Jena get to Wall Street after majoring in Biochemistry? [18:50]How does Jena apply the Ideal Gas Law formula, PV=nRT, in her daily life? [21:00] How did Jena transition from banking into her role in Marketing & IR at Weiss? [22:14]What advice does Jena have for aspiring women who are starting their careers on Wall Street? [32:15]How did George Weiss, Jordi Visser, and other finance professionals at Weiss help Jena think about her own investment decisions? [36:19]Resources:Women's History MonthIdeal Gas LawSave the ManateeDisclosures: This podcast and associated content (collectively, the “Post”) are provided to you by Weiss Multi-Strategy Advisers LLC (“Weiss”). The views expressed in the Post are for informational purposes only and are subject to change without notice. Information in this Post has been developed internally and is based on market conditions as of the date of the recording from sources believed to be reliable. Nothing in this Post should be construed as investment, legal, tax, or other advice and should not be viewed as a recommendation to purchase or sell any security or adopt any investment strategy. Past performance is no guarantee of future results. You should consult your own advisers regarding business, legal, tax, or other matters concerning investments. Any health-related information shared on the podcast is not intended as medical advice or for use in self-diagnosis or treatment. Please consult a qualified healthcare professional before acting upon any health-related information on the podcast. Weiss has no control over information at any external site hyperlinked in this Post. Weiss makes no representation concerning and is not responsible for the quality, content, nature, or reliability of any hyperlinked site and has included hyperlinks only as a convenience. The inclusion of any external hyperlink does not imply any endorsement, investigation, verification, or ongoing monitoring by Weiss of any information in any hyperlinked site. In no event shall Weiss be responsible for your use of a hyperlinked site. This is not intended to be an offer or solicitation of any security. Please visit www.gweiss.com to review related disclosures and learn more about Weiss.

Australia - Climate Scientist - Astronomer - Mining Engineer - Environmental Engineer. https://twitter.com/1000Frolly https://www.youtube.com/user/1000frolly https://www.researchgate.net/publication/338393205_On_the_Apparent_Relationship_Between_Total_Solar_Irradiance_and_the_Atmospheric_Temperature_at_1_Bar_on_Three_Terrestrial-type_Bodies https://www.researchgate.net/publication/324599511_Thermal_Enhancement_on_Planetary_Bodies_and_the_Relevance_of_the_Molar_Mass_Version_of_the_Ideal_Gas_Law_to_the_Null_Hypothesis_of_Climate_Change https://www.researchgate.net/publication/323106609_Molar_Mass_Version_of_the_Ideal_Gas_Law_Points_to_a_Very_Low_Climate_Sensitivity —— https://linktr.ee/tomanelson1 Tom Nelson's Twitter: https://twitter.com/tan123 Substack: https://tomn.substack.com/ About Tom: https://tomnelson.blogspot.com/2022/03/about-me-tom-nelson.html Notes for climate skeptics: https://tomn.substack.com/p/notes-for-climate-skeptics ClimateGate emails: https://tomnelson.blogspot.com/p/climategate_05.html

In this episode, we discuss the ideal gas law and how the different variables in this equation can help us improve IAP prototypes. Topics Covered 1:00 - Explanation of the Ideal Gas Law 3:00 - Ways to increase pressure and the ideal system for IAP 4:32 - Gases for IAP 5:51 - Changing temperature 7:23 - Discussing our main variable, volume 13:29 - Challenges to building an IAP system and airflow patterns Further explanation can be found in our blog post for this episode on our website: here Podcast Production Services by EveryWord Media

The Maxwell-Boltzmann distribution explains the behavior of gases nicely, and went well with the Ideal Gas Law of Clapeyton, until van der Waals modified the Ideal Gas Law a bit. We learn about absolute temperature and Lord Kelvin. Van 't Hoff connects the gas laws to osmotic pressure and ionic solutions. We hear of Raoult's Law and freezing-point depression. Finally we arrive at Svante Arrhenius's (barely passing) doctoral dissertation on ionic dissociation, and his activation energy for reactions.Support the show

In this episode of the Jack Westin MCAT Podcast, Phil Hawkins, Lead Instructor and Director of MCAT Prep and Harvard Medical Student Azaii Calderón Muñiz discuss Ideal Gases. More specifically, Phil and Azaii discuss how the Ideal Gas Law is tested on the MCAT, what equations you should know, and how this law affects climate change. 0:00 Introduction 6:06 What is an Ideal Gas 14:30 Attractive and Repulsive Gases 15:12 Pressure 18:35 Kinetic Energy 21:35 Ideal Gas and the MCAT 25:00 Van der Waals Equation 41:00 Real Live Examples About Jack Westin - The team at Jack Westin is dedicated to a single goal: giving students the highest quality learning resources. Jack Westin understands that students can't crush the MCAT without the perfect blend of critical thinking and fundamental science knowledge. To this end, Jack Westin is dedicated to providing students with cutting edge comprehensive tools, courses, and practice materials. The Jack Westin MCAT science and CARS courses, taught by the world's best and most engaging MCAT instructors, are designed to do more than just teach students the MCAT—it supercharges studying and encourages lifelong learning. Want to learn more? Shoot us a text at 415-805-6292 Free Resources: https://jackwestin.com Live Education Sessions: https://jackwestin.com/sessions Courses: https://jackwestin.com/courses Tutoring: https://jackwestin.com/tutoring Follow Us On Instagram: https://www.instagram.com/jackwestinmcat

Teachers wish students would always behave ideal, but in reality life happens and it gets messy (0:32). The same is true for gases: There is a difference between real and ideal gases (1:12). The Ideal Gas Law assumes that particles don't experience intermolecular forces nor that they take up volume (1:34). But real gases do and this leads to deviations from the Ideal Gas Law, especially under high pressure and close to condensing (2:00). Under low temperatures, intermolecular forces become more and more significant (2:41), leading to a lower pressure of a real gas compared to an ideal gas (3:30). This is enhanced by the strength of intermolecular forces and therefore their polarity (4:36). Because particles do have volume, the usable space is less in a real gas than an ideal gas (5:12). Therefore at high pressures the volume of a real gas is larger than the volume of ideal gases (5:32).Which molecule would have the least deviation from the Ideal Gas Law?A. CH4 B. Ne C. H2O D. Cl2Thank you for listening to The APsolute RecAP: Chemistry Edition!(AP is a registered trademark of the College Board and is not affiliated with The APsolute RecAP. Copyright 2021 - The APsolute RecAP, LLC. All rights reserved.)Website:www.theapsoluterecap.comEMAIL:TheAPsoluteRecAP@gmail.comFollow Us:INSTAGRAMTWITTERFACEBOOKYOUTUBE

N takes back everything he said about Ideal Gas Law, while J&P slam him for his waffling. --- Send in a voice message: https://podcasters.spotify.com/pod/show/jptalktime/message Support this podcast: https://podcasters.spotify.com/pod/show/jptalktime/support

Nathan stops by to talk about how the universe works in a way that he agrees with. P has had too much pizza, and J isn't sure what sports are. --- Send in a voice message: https://podcasters.spotify.com/pod/show/jptalktime/message Support this podcast: https://podcasters.spotify.com/pod/show/jptalktime/support

Alex Starks talks about Gas-Phase Concepts for the MCAT. He dissects the different gas properties, the ideal gas law and expounds on the ABCD laws of gases.  [01:03] Physical Properties of Gases [05:28] The Ideal Gas Law [08:26] Conditions that Promote Molecular Collisions in Gases [09:35] The ABCD laws of Gases [16:05] Important Takeaways Full show notes

Hello ModernJeepers welcome to Episode Number 82 of The ModernJeeper Show… the show about Jeeps, Jeeping and Jeepers.This week Matson, Corey and Jessy catch up about Matson’s 50th Birthday Party, the new self proclaimed Wrangler Killer (no, its not the Bronco), 7 year old competitors at the WE Rock Grand Nationals, Ultra 4 Racing in Moab and the upcoming Palo Duro Challenge.Then they are joined by Steve Sasaki, founder of Power Tank and the original creator of the CO2 tire inflation product category. Steve not only talks about inventing a new product category and what it is like to stumble into a product idea, but he shares what it really took to build it right… from understanding regulators to the most difficult part of a power tank to manufacture - I bet you can’t guess that one.This truly is a Gas 101 episode — Steve takes us on an educational journey into understanding Ideal Gas Law, why he chose CO2 over Nitrogen or Air, why you want a high flow rate, what he means by usable energy, why CO2 maintains head pressure, and why you shouldn’t ever waste your money on nitrogen for your tires. And he shares some stories about how hanging out with the right crowd can be a key to starting a new business.As always, we are extremely grateful to our supporters including Warn Winches, Raceline Wheels, Bestop, Milestar Tires, Rugged Radios, KMS Adventure Rack Systems and, of course, Metalcloak.So, sit back, relax with a cold one, and enjoy Episode number 82 of The ModernJeeper Show… Helpful Links…Polestar GolemModernJeeper Facebook Live Video of 7 Year OldW.E. Rock Grand Nationals, Cedar City, UTUltra4 Racing in Moab Utah, Area BFEPalo Duro Challenge, hosted by Jeep Exclusive in Amarillo, TXSteve Sasaki - Powertank, Lodi, CAPat GremillionPremier Power WelderPull-PalPowertank Nitrogen MythsIdeal Gas Law: PV = nRTWarn PowerplantEaster Jeep SafariFavorite Trail: SlickRock and the GauntletSlick Rock RoadSlick Road Road MapScosche Phone Mount

Emma looks at the molecular kinetic theory of gases, and the ideal gas equation. She also looks at the Kelvin scale of temperature and the concept of absolute zero. Ideal for preparing you for your AP Chemistry exam. Click here for the full course, or visit this link: http://bit.ly/301Bxii

A screencast from Chapter 9 in CH 222 which examines the ideal gas law, the most important equation of this chapter. Make sure you memorize the value of R! https://mhchem.org/222/classroom/zAudio/Ch12PVnRT.mp4

Paul Bemis is our guest on Good Data. Paul is the president of Applied Math Modeling makers of Coolsim computational fluid dynamics (CFD) software. You can find them at http://www.coolsimsoftware.com. They have been making CFD software for data centers for many years and before that Paul was working in the computational modeling industry for much of his career. We get into server design, containment methodologies and we get far into the weeds regarding the ideal gas law. If I have any advice to share with listeners to this podcast it is that they should learn about the Bernoulli Principle and the Ideal Gas Law. It will make your lives so much better. Our sponsor this week is Green Lane Design. Green Lane has been designing, engineering and building critial facilities for over ten years including major enterprise customers as well as colocation facilities. GLD has designed and developed an integrated stack of design disciplines. If you would be interested in a free assessment go to http://www.greenlanedesign.com/contact/ and mention the podcast. Our music is algorithmically generated by Jukedeck. Create your own at http://jukedeck.com. Try it out. It's free.

The calculations and discussion around the Ideal Gas Law.

How to use the ideal gas law for calculations in a first year chemistry class.

Chemistry 1. Introduction to the ideal gas law -- the equation of state of a hypothetical ideal gas and an approximation of the behavior of many gases under many conditions.

Ideal Gas Law. Presented by Dr. Paul McCord.

Pauline examines the Ideal Gas Law by using science to crush metal!

The Perfect Gas Law relates temperature, pressure, and density of gases in the atmosphere. It can be used to demonstrate why warm air rises, cool air sinks, and helium balloons float in the air. Buoyancy forces act in fluids (both water and air) when fluid is displaced by a parcel of a fluid with a different density. A combination of buoyancy force and the relationship given in the Ideal Gas Law govern the motion of parcels of gas in the atmosphere. Complete course materials are available at the Open Yale Courses website: http://oyc.yale.edu This course was recorded in Fall 2011.

A screencast from Chapter 10 in CH 222 which examines the ideal gas law, the most important equation of this chapter. Make sure you memorize the value of R!

Deriving the ideal gas law. Equipartition Theorem. Entropy of Mixing.Hot things glow -- or how night vision goggles work (Planck blackbody radiation). Analyzing star spectra. Class discussions: Mixing 2 colors of Kool-Aid, and how to make heavy Kool-Aid out of deuterated water. Why deuterated water can extend the snow skiing season, but is unfortunately toxic. Lecture Audio