Tru Physics

Twin Paradox

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Introduction

The Twin Paradox is a thought experiment in special relativity involving identical twins, one of whom makes a journey into space in a high-speed rocket and returns home to find that the other twin, who has stayed on Earth, has aged more. This seemingly paradoxical outcome arises from the relativistic effects of time dilation.

Artistic representation of the Twin Paradox showing a rocket flying away from Earth.
Artistic representation of the Twin Paradox showing a rocket flying away from Earth.

Basics of Time Dilation

Time dilation is a fundamental concept in special relativity, expressing that the observed time in a moving frame of reference is dilated, or lengthened, relative to a stationary observer. This can be formalized by the following equation:

t' = \gamma t

where t' is the time interval observed in the moving frame, t is the time interval in the stationary frame, and \gamma is the Lorentz factor defined as:

\gamma = \dfrac{1}{\sqrt{1-\dfrac{v^2}{c^2}}}

Here, v is the velocity of the moving frame, and c is the speed of light in a vacuum.

Scenario in the Twin Paradox

In the Twin Paradox, one twin travels to a distant star and back, while the other remains on Earth. According to special relativity, each twin sees the other’s clock running slow. But because the situation of the twins is not symmetric—the space-traveling twin experiences acceleration and deceleration, while the Earth-bound twin does not—the traveling twin returns to find the Earth-bound twin has aged more.

Resolution of the Twin Paradox

The paradox is resolved by understanding that special relativity does not claim complete symmetry between the two observers. It only claims that all inertial frames (observers moving at a constant velocity) are equivalent. The traveling twin’s frame is not inertial during the periods of acceleration and deceleration. If we include the effects of general relativity, which handles acceleration, we find that the traveling twin’s clock indeed runs slower.

Role of General Relativity

In the presence of gravitational fields, or for accelerating observers, general relativity is needed to explain the phenomenon fully. The general relativistic resolution involves the concept of a world line in spacetime and the “proper time” along different world lines. According to the equivalence principle, the effect of gravity and the effect of acceleration are locally indistinguishable, and both can cause time dilation.

Conclusion

The Twin Paradox is a quintessential illustration of the counterintuitive and fascinating predictions of special and general relativity. It provides a unique way of understanding the fundamental effects of time dilation and the nature of spacetime itself.

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Comments

2 responses to “Twin Paradox”

  1. Donald Lem Avatar
    Donald Lem

    If interested I will send you away to tell the absolute velocity of Lorentz reference frame. The absolute velocity resolves the paradox.

    Reply
    1. Tru Physics Avatar
      Tru Physics

      Definitely! Please send your info to me directly at [email protected].

      Reply

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