Physics on fingers
Physics is much simpler and more interesting than you think Buy Ads: @Svenssonnn telega.io/channels/Physicsonfingers/card?r=pKYK9NN4 Donate USDT (TRC20): TJ73pd4XQwLncPePKVzqDTQcHdEimESTYL
Show more📈 Analytical overview of Telegram channel Physics on fingers
Channel Physics on fingers (@physicsonfingers) in the English language segment is an active participant. Currently, the community unites 16 550 subscribers, ranking 12 132 in the Education category and 2 299 in the USA region.
📊 Audience metrics and dynamics
Since its creation on невідомо, the project has demonstrated rapid growth, gathering an audience of 16 550 subscribers.
According to the latest data from 12 July, 2026, the channel demonstrates stable activity. Although there has been a change in the number of participants by -18 over the last 30 days and by -2 over the last 24 hours, overall reach remains high.
- Verification status: Not verified
- Engagement rate (ER): The average audience engagement rate is 7.36%. Within the first 24 hours after publication, content typically collects 3.42% reactions from the total number of subscribers.
- Post reach: On average, each post receives 1 218 views. Within the first day, a publication typically gains 567 views.
- Reactions and interaction: The audience actively supports content: the average number of reactions per post is 8.
- Thematic interests: Content is focused on key topics such as physics, liquid, demonstration, pressure, electricity.
📝 Description and content policy
The author describes the resource as a platform for expressing subjective opinions:
“Physics is much simpler and more interesting than you think
Buy Ads: @Svenssonnn
telega.io/channels/Physicsonfingers/card?r=pKYK9NN4
Donate USDT (TRC20): TJ73pd4XQwLncPePKVzqDTQcHdEimESTYL”
Thanks to the high frequency of updates (latest data received on 13 July, 2026), the channel maintains relevance and a high level of publication reach. Analytics show that the audience actively interacts with content, making it an important point of influence in the Education category.
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| Date | Subscriber Growth | Mentions | Channels | |
| 13 July | 0 | |||
| 12 July | +7 | |||
| 11 July | +2 | |||
| 10 July | +1 | |||
| 09 July | +4 | |||
| 08 July | +6 | |||
| 07 July | +1 | |||
| 06 July | +1 | |||
| 05 July | +3 | |||
| 04 July | +5 | |||
| 03 July | +4 | |||
| 02 July | +9 | |||
| 01 July | +3 |
| 2 | Clamping experiment with a powerful magnet and magnetic balls | 315 |
| 3 | Clamping experiment with a powerful magnet and magnetic balls | 307 |
| 4 | Copper isn't magnetic, but it creates resistance in the presence of a strong magnetic field, causing the magnet to stop for a moment before it even touches the copper | 609 |
| 5 | Sample gas emission spectra
Pure samples of hydrogen, nitrogen, and 5 noble gases are exposed to the high-frequency pulsed field of a miniature Tesla coil. Each gas has a characteristic breakdown voltage and emission spectrum. | 578 |
| 6 | The ethyl alcohol trick
Alcohols, such as ethyl alcohol, are easily ignited. Ethanol burns to form carbon dioxide and water: C₂H₅OH + 3O₂ → 2CO₂ + 3H₂O
In this video, it is ethyl alcohol that is burning, not the bill. Sodium chloride gives the flame a yellow-orange color. The water with which the bill is moistened absorbs the heat generated.
But this heat isn't enough to completely vaporize the water. As a result, all the alcohol burns off, the flame goes out, and the slightly damp bill remains intact. | 599 |
| 7 | Briggs-Rauscher reaction
Hydrogen peroxide in interaction with acid, as well as starch, gives out a reaction that is able to change the color of the liquid in the following stepwise transitions: colorless - golden - blue solution.
During the interaction of the ingredients, the solution will begin to change its color. | 665 |
| 8 | How to memorize the electrodes?
To memorize the processes at the anode and cathode, there are mnemonic rules. | 689 |
| 9 | Spectacular digital clock ⏰ | 692 |
| 10 | Magnetic interactions 🧲 | 1 002 |
| 11 | Incredible movement of transparent hands with hidden drive of the Levitas watch.
The movement is hidden between the transparent dial and the edges of the case. | 767 |
| 12 | Tesla's portable cannon 🔫 | 750 |
| 13 | Spectacular footage of how incredibly red-hot parts cool down | 806 |
| 14 | The "magic" of science 💡 | 885 |
| 15 | Magnetic levitation demonstration 🫠 | 1 054 |
| 16 | Deionized water💧
If electrodes are placed in beakers and a high voltage is applied, deionized water forms a stable cylindrical bridge between the 2 beakers. | 936 |
| 17 | Curie point heat machine
When a magnet at the end of a wire is heated to a certain temperature (Curie point), its magnetic field is temporarily lost until it cools down.
This motor design utilizes a second magnet that pulls the swinging magnet back into the heat source, in this case a tea candle flame, once the magnetic field is restored. Repeating this process creates mechanical motion as long as the heat source is running. | 904 |
| 18 | The law of inertia has "left the chat room" | 908 |
| 19 | Interaction between dry ice and a non-Newtonian fluid
The faster the impact on a non-Newtonian fluid, the higher its viscosity.
During immersion and after complete immersion, sublimation occurs, hence the bloating of the liquid. | 946 |
| 20 | Leidenfroost Effect
A phenomenon in which a liquid in contact with a solid surface much hotter than the boiling point of that liquid forms a heat-insulating layer of vapor between the surface and the liquid, slowing the rapid boiling off of, for example, a drop of liquid on that surface. | 953 |
