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Pulse amplitude is a crucial indicator of cardiac health because it provides valuable insights into the strength of left ventricular contractions and the overall uniformity of blood circulation within the vasculature. The strength of the pulse is directly related to the force with which the heart contracts and the volume of blood being pumped.
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The understanding of the concept of reference frames is essential to discuss relative motion in one or more dimensions. When we say that an object has a certain velocity, we must state the velocity with respect to a given reference frame. In most examples, this reference frame has been Earth. For instance, if a statement reads that a person is sitting in a train moving at 10 m/s east, then it implies that the person on the train is moving relative to the surface of Earth at this velocity,...
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The relative frequency depicts the proportion of data points that have each value. The frequency tells the number of data points that have each value. Like the histogram, a relative frequency histogram also has the same shape with a horizontal scale (the x-axis), but the vertical scale (the y-axis) is marked with relative frequencies (percentages of the whole) instead of actual frequencies. A relative frequency histogram is a graphical representation of a frequency distribution where the...
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Relative velocity is the velocity of an object as observed from a particular reference frame, or the velocity of one reference frame with respect to another reference frame. The concept of relative velocity can be used to describe motion in two dimensions. Consider a particle P and two reference frames S and S′. The position of the origin of S′ as measured in S is , the position of P as measured in S′ is , and the position of P as measured in S is , which can be evaluated by utilizing...
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Related Experiment Video

Updated: Feb 2, 2026

Scattering And Absorption of Light in Planetary Regoliths
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General Relativity from Scattering Amplitudes.

N E J Bjerrum-Bohr1, Poul H Damgaard1, Guido Festuccia2

  • 1Niels Bohr International Academy and Discovery Center, The Niels Bohr Institute, Blegdamsvej 17, DK-2100 Copenhagen Ø, Denmark.

Physical Review Letters
|November 10, 2018
PubMed
Summary
This summary is machine-generated.

This study applies quantum field theory to general relativity, calculating gravitational interactions for massive objects. It simplifies complex calculations, yielding new insights into gravitational scattering and potentials.

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Area of Science:

  • Theoretical Physics
  • Quantum Field Theory
  • General Relativity

Background:

  • Classical general relativity describes gravity through spacetime curvature.
  • Quantum field theory (QFT) provides a framework for understanding fundamental forces and particles.
  • Calculating multi-body gravitational interactions classically is computationally intensive.

Purpose of the Study:

  • To develop a program applying modern QFT methods to classical general relativity.
  • To compute observables in the two-body, massive field, on-shell scattering amplitudes.
  • To simplify calculations using unitarity cuts for post-Newtonian and post-Minkowskian expansions.

Main Methods:

  • Truncating multigraviton scattering amplitudes to classical terms.
  • Utilizing unitarity cuts to isolate long-distance, nonanalytic interaction pieces.
  • Applying QFT techniques to derive interaction potentials and scattering functions.

Main Results:

  • Computed interaction potentials to second order in the post-Newtonian expansion.
  • Calculated scattering functions for two massive objects to second order in the post-Minkowskian expansion.
  • Derived an all-order exact result for gravitational light-by-light scattering.

Conclusions:

  • Demonstrated the efficacy of QFT methods for classical gravitational problems.
  • Provided a systematic approach to calculating gravitational observables.
  • Opened new avenues for precision calculations in gravitational physics.