Chemical Reactions, CR 4: Driving Reactions (HS), HE 1: Earth's History (MS), HE 2: Early Earth (HS), History of Earth, Physical Science, S&P 4: Molecule Traits (HS), Structure & Properties of Matter

Beaming Pyrimidines Part 5

Mechanisms for the formation of thymine under astrophysical conditions and implications for the origin of life SUMMARY: This article talks about different ways thymine can form under the conditions given in Part 4 of the Beaming Pyrimidines series. By adding hydroxyl and methyl groups to pyrimidine and beaming the mixture, thymine can form. The role… Continue reading Beaming Pyrimidines Part 5

Chemical Reactions, CR 2: Energy in Reactions (HS), CR 4: Driving Reactions (HS), Physical Science, S&P 1: Atoms & Molecules (MS), S&P 3: Heat & Reactions (MS), S&P 4: Molecule Traits (HS), Structure & Properties of Matter, W 1: Graphing Waves (MS), W 1: Wave Relationships (HS), W 2: Wave Behavior (MS), Waves & Electromagnetic Radiation

Beaming Pyrimidines Part 4

The Photochemistry of Pyrimidine in Realistic Astrophysical Ices and the Production of Nucleobases SUMMARY: To mimic the conditions on comets or space clouds, the gas mixture beamed in this experiment was a mixture of: water, methanol, ammonia, methane, and pyrazine. Pyrazine is an isomer of pyrimidine (both have the chemical formula C4H4N2). This gas mixture… Continue reading Beaming Pyrimidines Part 4

Chemical Reactions, CR 2: Energy in Reactions (HS), CR 3: Evidence of Reactions (HS), CR 4: Driving Reactions (HS), Non-NGSS Articles, Physical Science, S&P 1: Atoms & Molecules (MS), S&P 4: Molecule Traits (HS), Structure & Properties of Matter

Beaming Pyrimidines Part 3

Irradiation of Pyrimidine in Pure H2O Ice with High-Energy Ultraviolet Photons SUMMARY: In Part 3 of pyrimidine beaming, researchers looked at different energy levels of photons and their effect on pyrimidines. They beamed a water and pyrimidine ice mixture with photons of three different wavelengths. Uracil and the molecule that is the precursor to uracil… Continue reading Beaming Pyrimidines Part 3

Chemical Reactions, CR 1: Determining Chemical Reactions (MS), CR 1: Predicting Reactions (HS), CR 2: Energy in Reactions (HS), CR 2: Modeling Conservation of Mass (MS), CR 3: Evidence of Reactions (HS), CR 3: Testing Endo/Exothermic Reactions (MS), CR 4: Driving Reactions (HS), Non-NGSS Articles, Physical Science, S&P 1: Atoms & Molecules (MS), S&P 1: Periodic Table Patterns (HS), S&P 3: Heat & Reactions (MS), S&P 4: Molecule Traits (HS), Structure & Properties of Matter, W 1: Graphing Waves (MS), W 1: Wave Relationships (HS), W 2: Wave Behavior (MS), Waves & Electromagnetic Radiation

Beaming Pyrimidines Part 2

Thymine and Other Prebiotic Molecules Produced from the Ultraviolet Photo-Irradiation of Pyrimidine in Simple Astrophysical Ice Analogs(NOT OPEN ACCESS) SUMMARY: In the second edition of beaming pyrimidines, instead of using ammonia, scientists beamed pyrimidines with methanol, water and methanol, methane, and water and methane. As with “Beaming Pyrimidines Part 1”, the gases were cooled way… Continue reading Beaming Pyrimidines Part 2

Chemical Reactions, CR 4: Driving Reactions (HS), Physical Science, S&P 1: Atoms & Molecules (MS), S&P 1: Periodic Table Patterns (HS), S&P 3: Heat & Reactions (MS), S&P 4: Molecule Traits (HS), Structure & Properties of Matter, W 1: Graphing Waves (MS), W 1: Wave Relationships (HS), W 2: Digital Info (HS), W 2: Wave Behavior (MS), W 3: Digital vs Analog (MS), W 5: Devices (HS), Waves & Electromagnetic Radiation

Beaming Pyrimidines Part 1

Nucleobases and Prebiotic Molecules in Organic Residues Produced from the Ultraviolet Photo-Irradiation of Pyrimidine in NH3 and H2O + NH3 Ices (NOT OPEN ACCESS) SUMMARY: If you beam water and pyrimidines at low temperature and pressure in a sealed chamber, you’ll produce pyrimidine-based molecules such as uracil, cytosine, isomers of uracil and cytosine. You’ll also… Continue reading Beaming Pyrimidines Part 1