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The Enigma of Time: Why Physics Remains Divided on Its True Nature

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For centuries, the greatest minds have pondered the concept of time, yet its absolute nature remains elusive.

While physics does not dictate that time must flow in a specific direction or define its essence, it is widely accepted that time is a tangible aspect of the universe.

The two cornerstone theories of modern physics, general relativity and quantum mechanics, perceive time in distinct ways. In relativity, time functions as one coordinate in conjunction with three spatial coordinates.

Einstein demonstrated the intricate relationship between these dimensions, revealing that the flow of time is relative, not absolute. This implies that as you move faster, time appears to slow down in comparison to someone who remains “stationary.”

Interestingly, photons traveling at light speed experience no passage of time; for them, everything occurs simultaneously.

On the other hand, quantum mechanics, which pertains to the macroscopic realm, views time as a fundamental parameter—a consistent and one-way flow from past to future, disconnected from spatial dimensions and entities (like particles).

This divergence creates a conflict between these two prominent theories and poses a challenge for physicists attempting to unify gravitational and quantum theories into a singular “grand unified theory.”

Crucially, neither general relativity nor quantum mechanics defines time as a “field,” a physical quantity that permeates space and can affect particle characteristics.

Each of the four fundamental force fields (gravity, electromagnetism, strong nuclear force, and weak nuclear force) involves the exchange of particles.

These particles can be viewed as carriers of force. In electromagnetism, the carrier is a photon, while strong interactions are mediated by particles known as “gluons.”

Gravity, too, is thought to be transmitted by hypothetical particles called “gravitons,” yet a complete quantum description of gravity remains elusive.

Scientists continue to struggle with the concept of time, which appears to lack tangible properties like discrete chunks – Credit: Oxygen via Getty

Other “fields” confer specific properties to particles. For instance, the Higgs field involves the transfer of Higgs bosons, endowing them with mass.

In the realm of physics, time—regardless of its true essence—differs fundamentally from a “field.” It is not a physical quantity (like charge or mass) and does not apply forces or dictate particle interactions.

Thus, in contemporary physics, time is not characterized by mediating particles as are the four fundamental forces. The notion of “time particles” does not hold relevance.

Remarkably, recent studies indicate that time might actually be an illusion. This intriguing theory emerges from quantum “entanglement,” wherein the quantum states of particles are interlinked, regardless of their spatial separation.

This article addresses a question posed by Brian Roche from Cork, Ireland: “Is it possible for a time particle to exist?”

If you have any inquiries, please connect with us at: questions@sciencefocus.com or reach out via Facebook, Twitter, or Instagram Page (please include your name and location).

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Source: www.sciencefocus.com

Addressing Environmental Challenges in a Divided World

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Artwork in Geneva, Switzerland. Recently, a lecture on the Global Plastics Convention was conducted.

Fabrice Coffrini/AFP via Getty Images

On August 14, a weary UN representative walked into the main venue after long discussions and little sleep, witnessing the fading hopes for a global treaty on plastic pollution.

The two-week conference in Geneva, Switzerland, marked his second attempt to create international regulations to tackle this pressing issue.

However, just before a resolution, disagreements emerged over whether the treaty should contain provisions for boosting recycling rates, as well as targets to decrease plastic production at its source.

Oil Production Status – As demand for gasoline and diesel diminishes, the reliance on the plastics industry for revenue complicates efforts to reduce production.

The treaty required unanimous consent to be enacted, but some states stood firm on their “red lines,” leading to a breakdown in talks.

Does this scenario ring a bell? The Environmental Summit often experiences the collapse of protracted negotiations, lengthy discussions, and debates. Even when agreements are reached, consultations typically yield minimal concrete outcomes, a pattern seen during the 2023 COP28 Summit in Dubai.

A significant challenge lies in the longstanding expectation of unanimous agreement, as noted by Robert Faulkner from the London School of Economics. He explains that the United Nations has initiated discussions related to climate change and biodiversity, which requires consensus from hundreds of countries with diverse economic and political contexts.

“The consensus approach in international environmental negotiations has consistently been the Achilles’ heel of the United Nations’ environmental efforts,” states Faulkner. “This often results in compromises that reflect the lowest common denominator.”

Activists and strategists are growing weary from a series of stagnant climate summits, with slowed progress in efforts to halt biodiversity loss. In light of the recent crisis in Geneva, there’s increasing skepticism regarding the environmental diplomatic process.

“Why do we believe that environmental challenges can only be addressed through multilateralism and consensus among over 190 countries? That approach seems ineffective,” says Simon Sharp, a former British diplomat and author of Five Times Faster: Rethinking the Science, Economics, and Diplomacy of Climate Change.

More activists and strategists are seeking alternative strategies. Sharp, who played a role in organizing the COP26 Climate Summit in Glasgow, UK, emphasizes the need to prioritize action over targets and to rally influential countries to expedite decarbonization by sector. “If you want meaningful change, you must take action,” he asserts.

Eirik Lindebjerg, from the WWF Campaign Group, echoes a similar sentiment in Norway. “If 100 countries agree to implement measures to phase out fossil fuel vehicles, even without participation from other nations, it can still yield significant climate benefits,” he argues. “To me, there is a compelling case to move beyond the consensus mindset.”

This approach draws inspiration from positive “turning points” aimed at steering the world toward rapid decarbonization in various sectors, such as transportation and electricity.

Tim Renton, an author and academic at the University of Exeter, UK, argues in his upcoming book Positive Turning Points: How to Fix the Climate Crisis that collaboration among smaller groups of countries could prove more effective than relying solely on consensus-based negotiations.

“The essence of a tipping point is that a minority can ultimately sway the majority,” he explains. “Thus, it is illogical to restrict progress by demanding universal agreement before any actions are taken.”

Of course, this strategy hinges on engaging the most influential countries (those with economies capable of pushing these turning points). Given the unpredictability of US leadership under Donald Trump, this remains uncertain.

Yet, there are indications that this way of thinking is gaining traction within diplomatic circles. For instance, the Brazilian hosts of the forthcoming COP30 Climate Summit are contemplating a reorganization of frameworks that could enable the new UN Council for Climate Change to enact majority votes and facilitate direct, sector-specific collaboration among nations. Simultaneously, many observers are viewing China’s increasing engagement in climate matters as an opportunity for them to take a leadership role on specific issues like renewable energy and electric vehicles.

When progress in environmental policy is predominantly driven by small groups of nations, one must question the relevance of large agreements like climate summits. Events of this nature can aid in “norm-setting,” remarks Sharp, facilitating recognition of ongoing transitions, such as the global shift away from coal reliance. However, they shouldn’t be expected to lead the charge for change, he cautions.

There is no denying that decades-long efforts have been instrumental in fostering international consensus on environmental strategies. Nevertheless, consensus-driven negotiations can move at the pace of the slowest participants in the dialogue. As the world confronts a multifaceted crisis involving climate change, biodiversity, and pollution, it may be time to reconsider such an approach.

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Source: www.newscientist.com

Cells Can Be Divided in Unforeseen Ways

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                <img class="Image" alt="" width="1350" height="900" src="https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg" sizes="(min-width: 1288px) 837px, (min-width: 1024px) calc(57.5vw + 55px), (min-width: 415px) calc(100vw - 40px), calc(70vw + 74px)" srcset="https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=300 300w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=400 400w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=500 500w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=600 600w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=700 700w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=800 800w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=837 837w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=900 900w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=1003 1003w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=1100 1100w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=1200 1200w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=1300 1300w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=1400 1400w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=1500 1500w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=1600 1600w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=1674 1674w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=1700 1700w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=1800 1800w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=1900 1900w, https://images.newscientist.com/wp-content/uploads/2025/05/01181823/SEI_249575190.jpg?width=2006 2006w" loading="eager" fetchpriority="high" data-image-context="Article" data-image-id="2478846" data-caption="The division of human cells may not exactly align with what’s written in textbooks" data-credit="Iokanan VFX Studios/Shutterstock"/>
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                    <p class="ArticleImageCaption__Title">Inaccuracies in Textbook Descriptions of Human Cell Division</p>
                    <p class="ArticleImageCaption__Credit">Iokanan VFX Studios/Shutterstock</p>
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    <p>Researchers have identified a unique type of cell division that enables cells to store information in a way that determines the identity of their offspring. This discovery is key to advancing tissue engineering techniques and deepening our comprehension of cancer progression.</p>
    <p>Traditionally, it was believed that the majority of cells would curl into a spherical shape prior to division, allowing for an even distribution of contents between the "daughter" cells and ensuring they remain of the same type.</p>
    <p>However, stem cells represent an exception, as they can undergo heterogeneous or asymmetric cell division, yielding two distinct types of cells.</p>
    <p>In a surprising find, <a href="https://research.manchester.ac.uk/en/persons/shane.herbert">Schoen Herbert</a> from The University of Manchester, along with his team, observed that non-stem cells in developing zebrafish blood vessels also divide asymmetrically. These endothelial cells migrated to form new vessel branches and divided without adopting a spherical shape, resulting in different cell types.</p>
    <p>By altering the shape of human endothelial cells in laboratory conditions, the team established that a cell's geometry can predict the symmetry of its division. Longer, more slender cells were more likely to divide asymmetrically, indicating that the division process can be influenced by the cell's shape.</p>
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    <p>Herbert illustrated that cells do not lose their structural and behavioral information during this process, suggesting they maintain their form, thereby preserving their "memory." "Often, they retain their shape, enabling them to convey this memory," he stated.</p>
    <p>This phenomenon allows for a simultaneous movement, division, and production of various cell types without disrupting the ongoing cellular processes. Such flexibility supports rapid adjustments to developmental needs, like supplying tissues necessary for expanding blood vessels and nerves.</p>
    <p>The implications of this discovery extend to lab-grown tissues, where generating functional blood vessels is a significant hurdle. "Our challenge is to create a specific environment that allows these cells to achieve the shapes and behaviors necessary for forming functional blood vessels," explains team member <a href="https://research.manchester.ac.uk/en/persons/holly.lovegrove">Holly Lovegrove</a> from the University of Manchester. Adjusting cell shapes could pave the way for producing specific cell types, she suggests. Conversely, cancer can spread through the formation of clusters of migrating cells, with these new insights potentially shedding light on that process.</p>
    <p>This research exemplifies how organisms can fine-tune mechanisms like cell rounding to accomplish multiple tasks critical for tissue development. <a href="https://www2.mrc-lmb.cam.ac.uk/group-leaders/a-to-g/buzz-baum/">Buzz Baum</a> from the MRC Institute of Molecular Biology in Cambridge, UK, remarked, "This is a clever method to retain essential information while facilitating network growth by generating more cells."</p>
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Source: www.newscientist.com