Podcast thumbnail for Quantum Physics for Kids

Quantum Physics for Kids

Claim This Podcast

by Subatomic Tanvi

4.8(16 reviews)
34 episodes
Updated Bi-weekly
Accepts GuestsHas SponsorsLocation 🇺🇸
66

Podcast Authority

Beta
GoodBased on show quality, social media presence, reviews, charts, and more
Pod Engine
Quality72
Social0
YouTube68
Engagement82

Podcast Overview

Tanvi Gopalan is a 12 year old member of American Mensa who loves Quantum Physics. She teaches all about quantum physics in a fun and simple way. Quantum physics is the study of the smallest things in the universe, and it's one of the most fascinating and important branches of science. But it can also be very confusing, especially for kids. In this podcast, Tanvi explains complex concepts like entanglement, superposition, uncertainty principle and a lot more, in a way that anyone can understand. So whether you're a kid, a parent, or just someone curious about quantum physics, subscribe NOW!

Language

🇺🇲

Publishing Since

9/20/2023

Unlock The Full Podcast Authority Score Report

See how your podcast performs across key metrics

66

Podcast Authority

Beta
GoodBased on show quality, social media presence, reviews, charts, and more
Pod Engine
Quality72
Social0
YouTube68
Engagement82
8
Excellent Areas
2
Good Performance
9
Growth Opportunities
excellent
Episode Length
5 minutes
Performing excellently!
good
Show Experience
29 episodes over 1.8 years

Recommendations available

Unlock the full report to see detailed tips

needs improvement
Publishing Consistency
Every 23 days

Recommendations available

Unlock the full report to see detailed tips

+16 More Metrics

Unlock comprehensive insights including:

  • • YouTube presence analysis
  • • Social media reach metrics
  • • RSS compliance scoring
  • • Podcast 2.0 features
  • • Technical standards
What's Included in Your Full Report

Detailed Analytics

  • Complete breakdown of all 19 authority metrics
  • Personalized recommendations for each metric
  • Industry benchmarks and comparisons
  • Technical RSS feed analysis and compliance scoring

Growth Strategies

  • Step-by-step action plans for improvement
  • Quick wins to boost your score immediately
  • Pro tips from successful podcasters
Get your free podcast insights report

See how your show performs across every key metric

Instant delivery
No spam
Attract Better Guests

High authority scores make your podcast more attractive to industry leaders and influencers who want to appear on credible shows.

Secure Sponsorships

Sponsors look for podcasts with proven authority and engagement. Your score demonstrates your podcast's value to potential partners.

Grow Your Audience

Understanding your strengths and weaknesses helps you make data-driven decisions to expand your listener base effectively.

1 verified contact email on file for Quantum Physics for Kids

Pitch yourself as a guest, propose sponsorships, or reach out directly to the host.

Recent Episodes

Episode thumbnail for Subatomic Timekeeping: A step-by-step guide to the world's most precise clocks

May 9, 2026

Subatomic Timekeeping: A step-by-step guide to the world's most precise clocks

<p>Ever wondered how we measure time with such incredible precision? In this episode of Subatomic Tanvi, we’re looking past the pendulums and quartz crystals of traditional watches to explore the high-tech world of atomic clocks. Join the conversation as Tanvi breaks down the quantum physics of energy levels, resonant frequencies, and the photons that make these devices the most accurate timekeepers on the planet. From the basic principles of atomic transitions to a step-by-step look at how they function, this episode reveals the hidden subatomic rhythm that keeps our modern world in sync.</p>

Episode thumbnail for The Quantum Contradiction: Why Niels Bohr’s Model Breaks the Laws of Physics

February 15, 2026

The Quantum Contradiction: Why Niels Bohr’s Model Breaks the Laws of Physics

<p>Dive into the microscopic world with Subatomic Tanvi as she unpacks the fascinating (and slightly confusing) evolution of the atomic model. In this episode, Tanvi explores the leap from JJ Thomson’s &quot;Plum Pudding&quot; theory to the iconic Bohr Model of 1913, clarifying once and for all that &quot;electron shells&quot; have nothing to do with seashells or turtles. While the Bohr Model revolutionized our understanding of energy levels, Tanvi reveals the catch: it’s technically a &quot;successful failure&quot; that violates Heisenberg’s Uncertainty Principle and only truly works for hydrogen. Whether you&#39;re here for the high-level quantum mechanics or just want to know where to buy some subatomic pudding, this episode perfectly balances scientific history with the quirky contradictions of the quantum realm.</p><p><br></p>

Episode thumbnail for The Birth of the Qubit - Inside the 2025 Physics Nobel Prize-Winning Discovery

December 25, 2025

The Birth of the Qubit - Inside the 2025 Physics Nobel Prize-Winning Discovery

<p>In this episode of Subatomic Tanvi, we dive into the 2025 Nobel Prize in Physics! Tanvi explains how John Clarke, Michel Devoret, and John M. Martinis proved that the &quot;weird&quot; rules of quantum mechanics don&#39;t just apply to tiny atoms - they apply to the world we can see and touch. From the &quot;smoking gun&quot; test at absolute zero to the discovery that changed the future of quantum computing, learn how macroscopic quantum tunneling is paving the way for the next generation of technology.</p>

34 total episodes available

Deep-dive analytics for Quantum Physics for Kids

Frequently asked questions

Have a different question and can't find the answer you're looking for? Reach out to our support team by sending us an email and we'll get back to you as soon as we can.

What is Quantum Physics for Kids?

Tanvi Gopalan is a 12 year old member of American Mensa who loves Quantum Physics. She teaches all about quantum physics in a fun and simple way. Quantum physics is the study of the smallest things in the universe, and it's one of the most fascinating and important branches of science. But it can also be very confusing, especially for kids. In this podcast, Tanvi explains complex concepts like entanglement, superposition, uncertainty principle and a lot more, in a way that anyone can understand. So whether you're a kid, a parent, or just someone curious about quantum physics, subscribe NOW!

How often does this podcast release new episodes?

This podcast updates bi-weekly.

Where can I listen to this podcast?

This podcast is available on 8 platforms including Apple Podcasts, Spotify, and more. You can also use the RSS feed directly.

Does this podcast accept guests?

Yes, this podcast regularly features guests.

Legal Disclaimer

Pod Engine is not affiliated with, endorsed by, or officially connected with any of the podcasts displayed on this platform. We operate independently as a podcast discovery and analytics service.

All podcast artwork, thumbnails, and content displayed on this page are the property of their respective owners and are protected by applicable copyright laws. This includes, but is not limited to, podcast cover art, episode artwork, show descriptions, episode titles, transcripts, audio snippets, and any other content originating from the podcast creators or their licensors.

We display this content under fair use principles and/or implied license for the purpose of podcast discovery, information, and commentary. We make no claim of ownership over any podcast content, artwork, or related materials shown on this platform. All trademarks, service marks, and trade names are the property of their respective owners.

While we strive to ensure all content usage is properly authorized, if you are a rights holder and believe your content is being used inappropriately or without proper authorization, please contact us immediately at hey@podengine.ai for prompt review and appropriate action, which may include content removal or proper attribution.

By accessing and using this platform, you acknowledge and agree to respect all applicable copyright laws and intellectual property rights of content owners. Any unauthorized reproduction, distribution, or commercial use of the content displayed on this platform is strictly prohibited.