Podcasts about greatest hunt

The Greatest Hunt! // Jason Lowry // Post Falls Campus by Heart Of The City Church

On this episode, we dive into our favorite moments of the annual hunting trip. This year, we went to Arkansas for the first time and we have a story you have to hear to believe. We even show some of the highlights from this particular story.

In this episode and The Greatest Hunt- Shorter Version we will be exploring in greater detail the greatest hunting story of all time. Did you know God is a hunter? We will attempt to answer some major questions like where did you come from, where are you going after your tag is punched, and how can you know what the purpose of life is. Obviously this is a little deeper than we normally go on the show. But I encourage you to listen with an open mind. We will resume our normal episodes with EP82 next week. This is the longer and more in depth version. If you'd like a quicker and simpler explanation check out the other Bonus Episode "The Greatest Hunt- Shorter Version". Questions, comments, different opinion? Send me an email at sheddinglightod@gmail.com

In this episode and The Greatest Hunt- Longer Version we will be exploring in greater detail the greatest hunting story of all time. Did you know God is a hunter? We will attempt to answer some major questions like where did you come from, where are you going after your tag is punched, and how can you know what the purpose of life is. Obviously this is a little deeper than we normally go on the show. But I encourage you to listen with an open mind. We will resume our normal episodes with EP82 next week. This is the shorter and to the point version. If you'd like a little more detailed explaination check out the other Bonus Episode "The Greatest Hunt- Longer Version". Questions, comments, different opinion? Send me an email at sheddinglightod@gmail.com

Cody Schleich joins us on the show today to share some of his best buck stories, and he has quite a few! We dive into some of those stories and some of tactics. We also discuss his new desire to hunt mostly public land this season. Throw in a bonus elk story and it's a fun episode! To check out Cody's Instagram search for cody_schleichBe sure to hit SUBSCRIBE so you don't miss our weekly episode. And if you're interested I will be releasing 2 bonus episodes entitled "The Greatest Hunt" later this week. It'll dive in a little deeper to faith than we normally do and we will try to answer some important questions like "what's the point of life", "What happens after we die" and "how can I know for sure where Im going". Hope you'll check it out.

We all hear about research discoveries, but what about what scientists don't find? Tune in for a round-up of eureka moments that have yet to come, such as the hunt for the dark energy of the universe and the search for the elusive elementary particle responsible for the mass of objects. Also, we miss the woolly mammoth so much, scientists plan to clone the hairy beast and bring the extinct animal back. Plus, why the missing link is no longer missing, what extrasolar planets have now been found, and – NASA money for science: where'd it go? Guests: Alan Stern – Aerospace consultant and planetary scientist Natalie Batalha – Deputy Science Team Lead for NASA's Kepler Mission Leslea Hlusko – Biologist at the University of California, Berkeley Ian Sample – Science writer, author of Massive: The Missing Particle That Sparked the Greatest Hunt in Science Saul Perlmutter – Physicist, Lawrence Berkeley National Laboratory Darin Croft – Professor of Anatomy, Case Western Reserve, Cleveland Learn more about your ad choices. Visit megaphone.fm/adchoices

We all hear about research discoveries, but what about what scientists don’t find? Tune in for a round-up of eureka moments that have yet to come, such as the hunt for the dark energy of the universe and the search for the elusive elementary particle responsible for the mass of objects. Also, we miss the woolly mammoth so much, scientists plan to clone the hairy beast and bring the extinct animal back. Plus, why the missing link is no longer missing, what extrasolar planets have now been found, and – NASA money for science: where’d it go? Guests: Alan Stern – Aerospace consultant and planetary scientist Natalie Batalha – Deputy Science Team Lead for NASA’s Kepler Mission Leslea Hlusko – Biologist at the University of California, Berkeley Ian Sample – Science writer, author of Massive: The Missing Particle That Sparked the Greatest Hunt in Science Saul Perlmutter – Physicist, Lawrence Berkeley National Laboratory Darin Croft – Professor of Anatomy, Case Western Reserve, Cleveland

You've probably read about the Large Hadron Collider (LHC). It's the largest (17 miles around!), most expensive (9 billion dollars!) scientific instrument in history. What's it do? It accelerates beams of tiny particles (protons) to nearly the speed of light and then smashes them into one another. That's cool, you say, but why? Well, the simple answer is this: it was built to test the validity of the way most physicists understand the origins and essence of everything, that is, the “standard model.” You see, the standard model has a big gap in it: it can't explain why certain essential particles have mass. In the 1960s, however, a group of theoretical physicists proposed an answer. These massive particles, they said, were bathed in a dense, universal field of other particles, now called “Higgs bosons.” The field gives them mass. To draw an analogy (always a dangerous thing to do in physics…), particles like protons have mass for the same reason straws stand up in milkshakes–they are “packed in,” so to say. The trouble, to continue this awkward analogy, is that no one has ever “seen” the milkshake. The scientists working at the LHC are trying to find it. If they do, the standard model remains standard and Nobel Prizes all 'round. If not, well, back to the drawing board. Ian Sample does a masterful job of telling the tale of the quest for the Higgs boson (aka the “God particle”) in his new book Massive: The Missing Particle that Sparked the Greatest Hunt in Science (Basic Books, 2010). You don't need to know a thing about physics (though the author clearly does) to enjoy it. Sample has a talent for explaining things that are often obscured by mathematics (a kind of crutch, I think, for many scientists) in straightforward English prose. This skill, combined with the fact that Sample is a great storyteller with a great story to tell, make Massive an excellent read. You may not have liked science in school, but trust me when I say you'll very much enjoy the history of science in the hands of Ian Sample. Please become a fan of “New Books in History” on Facebook if you haven't already. Learn more about your ad choices. Visit megaphone.fm/adchoices

You've probably read about the Large Hadron Collider (LHC). It's the largest (17 miles around!), most expensive (9 billion dollars!) scientific instrument in history. What's it do? It accelerates beams of tiny particles (protons) to nearly the speed of light and then smashes them into one another. That's cool, you say, but why? Well, the simple answer is this: it was built to test the validity of the way most physicists understand the origins and essence of everything, that is, the “standard model.” You see, the standard model has a big gap in it: it can't explain why certain essential particles have mass. In the 1960s, however, a group of theoretical physicists proposed an answer. These massive particles, they said, were bathed in a dense, universal field of other particles, now called “Higgs bosons.” The field gives them mass. To draw an analogy (always a dangerous thing to do in physics…), particles like protons have mass for the same reason straws stand up in milkshakes–they are “packed in,” so to say. The trouble, to continue this awkward analogy, is that no one has ever “seen” the milkshake. The scientists working at the LHC are trying to find it. If they do, the standard model remains standard and Nobel Prizes all 'round. If not, well, back to the drawing board. Ian Sample does a masterful job of telling the tale of the quest for the Higgs boson (aka the “God particle”) in his new book Massive: The Missing Particle that Sparked the Greatest Hunt in Science (Basic Books, 2010). You don't need to know a thing about physics (though the author clearly does) to enjoy it. Sample has a talent for explaining things that are often obscured by mathematics (a kind of crutch, I think, for many scientists) in straightforward English prose. This skill, combined with the fact that Sample is a great storyteller with a great story to tell, make Massive an excellent read. You may not have liked science in school, but trust me when I say you'll very much enjoy the history of science in the hands of Ian Sample. Please become a fan of “New Books in History” on Facebook if you haven't already. Learn more about your ad choices. Visit megaphone.fm/adchoices

You’ve probably read about the Large Hadron Collider (LHC). It’s the largest (17 miles around!), most expensive (9 billion dollars!) scientific instrument in history. What’s it do? It accelerates beams of tiny particles (protons) to nearly the speed of light and then smashes them into one another. That’s cool, you... Learn more about your ad choices. Visit megaphone.fm/adchoices

You’ve probably read about the Large Hadron Collider (LHC). It’s the largest (17 miles around!), most expensive (9 billion dollars!) scientific instrument in history. What’s it do? It accelerates beams of tiny particles (protons) to nearly the speed of light and then smashes them into one another. That’s cool, you say, but why? Well, the simple answer is this: it was built to test the validity of the way most physicists understand the origins and essence of everything, that is, the “standard model.” You see, the standard model has a big gap in it: it can’t explain why certain essential particles have mass. In the 1960s, however, a group of theoretical physicists proposed an answer. These massive particles, they said, were bathed in a dense, universal field of other particles, now called “Higgs bosons.” The field gives them mass. To draw an analogy (always a dangerous thing to do in physics…), particles like protons have mass for the same reason straws stand up in milkshakes–they are “packed in,” so to say. The trouble, to continue this awkward analogy, is that no one has ever “seen” the milkshake. The scientists working at the LHC are trying to find it. If they do, the standard model remains standard and Nobel Prizes all ’round. If not, well, back to the drawing board. Ian Sample does a masterful job of telling the tale of the quest for the Higgs boson (aka the “God particle”) in his new book Massive: The Missing Particle that Sparked the Greatest Hunt in Science (Basic Books, 2010). You don’t need to know a thing about physics (though the author clearly does) to enjoy it. Sample has a talent for explaining things that are often obscured by mathematics (a kind of crutch, I think, for many scientists) in straightforward English prose. This skill, combined with the fact that Sample is a great storyteller with a great story to tell, make Massive an excellent read. You may not have liked science in school, but trust me when I say you’ll very much enjoy the history of science in the hands of Ian Sample. Please become a fan of “New Books in History” on Facebook if you haven’t already. Learn more about your ad choices. Visit megaphone.fm/adchoices

You’ve probably read about the Large Hadron Collider (LHC). It’s the largest (17 miles around!), most expensive (9 billion dollars!) scientific instrument in history. What’s it do? It accelerates beams of tiny particles (protons) to nearly the speed of light and then smashes them into one another. That’s cool, you say, but why? Well, the simple answer is this: it was built to test the validity of the way most physicists understand the origins and essence of everything, that is, the “standard model.” You see, the standard model has a big gap in it: it can’t explain why certain essential particles have mass. In the 1960s, however, a group of theoretical physicists proposed an answer. These massive particles, they said, were bathed in a dense, universal field of other particles, now called “Higgs bosons.” The field gives them mass. To draw an analogy (always a dangerous thing to do in physics…), particles like protons have mass for the same reason straws stand up in milkshakes–they are “packed in,” so to say. The trouble, to continue this awkward analogy, is that no one has ever “seen” the milkshake. The scientists working at the LHC are trying to find it. If they do, the standard model remains standard and Nobel Prizes all ’round. If not, well, back to the drawing board. Ian Sample does a masterful job of telling the tale of the quest for the Higgs boson (aka the “God particle”) in his new book Massive: The Missing Particle that Sparked the Greatest Hunt in Science (Basic Books, 2010). You don’t need to know a thing about physics (though the author clearly does) to enjoy it. Sample has a talent for explaining things that are often obscured by mathematics (a kind of crutch, I think, for many scientists) in straightforward English prose. This skill, combined with the fact that Sample is a great storyteller with a great story to tell, make Massive an excellent read. You may not have liked science in school, but trust me when I say you’ll very much enjoy the history of science in the hands of Ian Sample. Please become a fan of “New Books in History” on Facebook if you haven’t already. Learn more about your ad choices. Visit megaphone.fm/adchoices