Johnny5 Alive questioned, "Dark matter: Could it just be some influence from a different dimension, which would explain never finding it?"
January 09, 2025
Dear Johnny5 Alive,
You have raised an abstract question that holds merit but requires further refinement for clarity. Let me guide you through the necessary enhancements in your question.
1. Exploring "Different Dimensions"
Before delving into hyper-dimensions, let’s examine the term “different dimension” that you mentioned. This phrase could refer to dimensions beyond or below the three spatial dimensions we naturally observe in our universe.
• Hyper-dimensions: These refer to dimensions beyond the three spatial dimensions and are commonly explored in theoretical physics, often associated with higher-dimensional models like string theory.
• 0ₜₕ Dimension: This pertains to systems with fewer than three spatial dimensions, often conceptualized at scales well below the Planck length (ℓₚ ≈ 1.616255 x 10⁻³⁵ m), a range imperceptible to human senses.
Perceptibility of Dimensions
Both hyper-dimensions and the 0ₜₕ dimension are beyond human perception. Even within our familiar three spatial dimensions, scales below the Planck length are permanently imperceptible. Examples in this realm include:
• One-dimensional black holes
• Strings in string theory
Such phenomena exist in a regime far removed from observable scales, challenging our ability to comprehend them naturally.
2. Gamma Rays and Planck Scales
Gamma rays represent the highest-frequency electromagnetic (EM) waves. While ultra-high-energy gamma rays can exceed 2.42 × 10²⁸ Hz, they remain significantly below the Planck frequency (fᴘ ≈ 2.952×10⁴² Hz). Even the most powerful gamma rays detected, such as those at 10³⁰ Hz in 2024 by China’s LHAASO, fall short of Planck scales.
3. String Theory: Vibrating Strings and Fundamental Frequencies
String theory posits that the universe’s fundamental components are tiny, vibrating strings. These strings are hypothesized to vibrate at frequencies calculated using the formula:
f = n/2L√T/m
Where:
• f: Frequency of vibration
• T: Tension in the string
• L: String length
• n: Number of harmonics
Key properties of strings include:
• String Length: In the given model, the calculated string length (3.232 x 10⁻³⁴ m) is approximately 20 times larger than the Planck length (ℓₚ ≈ 1.616255 x 10⁻³⁵ m). This ratio aligns with popular string theory models, such as Type I and heterotic string theory, where ℓₛ/ℓₚ is predicted to be 20–30 times ℓₚ.
• Planck Frequency (fᴘ) 2.952×10⁴² Hz: Represents the highest possible frequency, associated with the smallest wavelength.
4. Sample Calculation
Using the specific equation for a vibrating string’s fundamental frequency:
f= c/2ℓₛ
Where c is the speed of light, we find:
f = 299792458 m/s / 2×(10×1.616×10⁻³⁵ m)f ≈ 9.276 x 10⁴¹ Hz
For the corresponding wavelength:
λ = c/f yieldsλ ≈ 3.232 x 10⁻³⁴ m
Conclusion
The calculated string length (ℓₛ) is approximately 20 times larger than the Planck length (ℓₚ). This refined understanding aligns with string theory's predictions and highlights the extraordinary scales involved in these theoretical constructs.
By refining the scope of your question and clarifying these concepts, we can delve deeper into the exciting realms of higher dimensions, Planck scales, and string theory.
5. The Law of Vibration
The Law of Vibration asserts that everything in the universe—whether visible or invisible—when reduced to its most fundamental essence, consists of pure energy or light. This energy resonates and manifests as vibratory frequencies or patterns.
• Universal motion: Nothing in the universe is at rest. All things, including living beings like you and me, vibrate continuously at atomic and subatomic levels.
• Vibratory essence: The universe and all that it contains are ultimately expressions of pure vibratory energy, taking on various forms.
Matter as Vibrational Energy
Despite our perception of solidity, the universe lacks true "solidity." Matter, as we perceive it, is merely energy in a specific state of vibration. This perspective highlights the interconnectedness of all things, where existence is a continuum of vibrational energy.
Energy Across Dimensions
Energy exhibits different behaviours in different dimensions:
• Primordial energy: Before the Big Bang, energy likely existed without events or dimensions as we know them. In the absence of interactions, there was no time or space in our conventional understanding.
• Time and space: Both require the interplay of existence and events. Primordial energy, therefore, existed outside the three-dimensional framework of our universe.
• Higher dimensions: Energy in dimensions beyond our own may behave in fundamentally different ways, revealing properties and dynamics that challenge current scientific understanding.
Conclusion
To answer the question, "Can different forms of energy exist in different dimensions?" the response is an unequivocal "Yes." Primordial energy that existed before the Big Bang, as well as energy in higher dimensions, may behave uniquely, showcasing the adaptability and versatility of vibrational energy in varied dimensional realms.
6. Dark Matter and Dark Energy
As previously discussed, energy behaves differently across dimensions. The Law of Vibration suggests that all entities in the universe—visible or invisible—consist of pure energy or light when reduced to their most fundamental nature. This energy resonates as vibratory frequencies or patterns.
Dark matter and dark energy, though imperceptible to us, likely exist in energetic forms as vibratory frequencies or patterns in dimensions beyond our perception. Their behaviours transcend our current understanding, emphasizing the dynamic and versatile nature of vibrational energy across multiple dimensions.
Best regards,
Soumendra Nath Thakur
No comments:
Post a Comment