# Cosmic Inflation is Wrong. Long Live Inflation!

There are many previously unsolved problems in physics which are or will be solved using the Neoclassical Physics and Quantum Gravity model. In this post I’ll discuss Cosmic Inflation.

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# Cosmic Inflation is Wrong. Long Live Inflation!

# Rethink Supermassive Black Hole Dynamics!

# Idealized Neoclassical Model

# Fresh Thinking on Entropy

# Glossary of Neoclassical Physics and Quantum Gravity

# Black Holes are Not Opaque

# Complexity and Simplicity

# Solving the Unsolved Problems in Physics

# Brainstorming Composite Particles

# The Planck Satellite Data Set

# Brainstorming the Speeds of Light

# Quantized and/or Continuous?

There are many previously unsolved problems in physics which are or will be solved using the Neoclassical Physics and Quantum Gravity model. In this post I’ll discuss Cosmic Inflation.

To resolve the crisis in physics and cosmology, rethink supermassive black hole dynamics.

The purpose of this idealized model of nature is to facilitate thought experiments based on the assumptions of a minimal two particle physical universe. The hope is the thought experiments may lead to new insights about nature. This is not a formal physics model.

There are many previously unsolved problems in physics which are or will be solved using the Neoclassical Physics and Quantum Gravity model. In this post I’ll discuss Entropy.

Terms used and not used in Neoclassical Physics and Quantum Gravity (NPQG).

Physics of the QR-GM era espoused a very simple model for black holes that failed to recognize their true nature. In NPQG physics, black holes are recognized as a step towards the recycling universe.

In Murray Gell-Mann’s, “The Quark and the Jaguar,” he mentions, early-on, his life long interest and passion for understanding nature and later his work at the Santa Fe Institute on complexity. There is a beauty to how complex systems emerge from simple inputs and rules. He published this book in 1994, a full 25 years […]

There are many previously unsolved problems in physics which are or will be solved using the Neoclassical Physics and Quantum Gravity model. I’ve written blog posts about the NPQG solution for many of these problems. On this page, I provide a summary and link to each solution. For NPQG basics see: Idealized Neoclassical Model and […]

Note: This is a brainstorm. Raw ideation. It may or may not lead to insight about nature. Let’s brainstorm on the structure and wave functions of composite particles of standard matter-energy. There are only two non-composite particles: an individual electrino or positrino. Composite particles have a formula specifying the number of electrinos and positrinos. The […]

In this post, I’ll look into the Planck Satellite and the Planck Data Set. The goal will be to investigate whether it makes sense to use data science on the Planck data to investigate đť—ˇđť—Łđť—¤đť—š hypotheses. For NPQG basics see: Idealized Neoclassical Model and the NPQG Glossary. Planck was a space observatory operated by the […]

For NPQG basics see: Idealized Neoclassical Model and the NPQG Glossary. This idea is speculative and it is not completely worked out. Reader beware. Although GR-QM era scientists assert that the speed of light, c, is a constant in spacetime, it turns out this is false. Our measurements of c are typically done in low-gravity […]

Quantum mechanics led to a new way to consider nature as driven by quanta. Even so, some things in nature are continuous. Let’s explore and differentiate what is quantized and what is continuous in NPQG. For NPQG basics see: Idealized Neoclassical Model and the NPQG Glossary. QUANTIZED Particles, whether electrino, positrino, or composite. Energy transfer between particles, in […]