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Rocket Propulsion in Empty Space - I01:13

Rocket Propulsion in Empty Space - I

The driving force for the motion of any vehicle is friction, but in the case of rocket propulsion in space, the friction force is not present. The motion of a rocket changes its velocity (and hence its momentum) by ejecting burned fuel gases, thus causing it to accelerate in the direction opposite to the velocity of the ejected fuel. In this situation, the mass and velocity of the rocket constantly change along with the total mass of ejected gases. Due to conservation of momentum, the rocket's...
Rocket Propulsion In Empty Space - II01:12

Rocket Propulsion In Empty Space - II

The motion of a rocket is governed by the conservation of momentum principle. A rocket's momentum changes by the same amount (with the opposite sign) as the ejected gases. As time goes by, the rocket's mass (which includes the mass of the remaining fuel) continuously decreases, and its velocity increases. Therefore, the principle of conservation of momentum is used to explain the dynamics of a rocket's motion. The ideal rocket equation gives the change in velocity that a rocket experiences by...
Space Trusses: Problem Solving01:29

Space Trusses: Problem Solving

A space truss is a three-dimensional counterpart of a planar truss. These structures consist of members connected at their ends, often utilizing ball-and-socket joints to create a stable and versatile framework. Due to its adaptability and capacity to withstand complex loads, the space truss is widely used in various construction projects.
Consider a tripod consisting of a tetrahedral space truss with a ball-and-socket joint at C. Suppose the height and lengths of the horizontal and vertical...
Planes in Space01:31

Planes in Space

A plane in three-dimensional space is fundamentally characterized by a point that lies on the plane and a normal vector that is perpendicular to its surface. This normal vector uniquely determines the orientation of the plane, making it an essential geometric descriptor. In architectural applications, such as the installation of a sloped glass panel on a building façade, this mathematical model provides a precise representation of the panel’s position and orientation in space.Let r₀ be the...
Space Curves01:25

Space Curves

A space curve describes the path followed by a particle moving through three-dimensional space. Unlike plane curves, which are confined to two coordinates, space curves require three coordinate functions. If t is a parameter, the position of the particle is represented by the vector function\begin{equation*}\mathbf{r}(t)=\langle x(t),y(t),z(t)\rangle,\end{equation*}where x(t), y(t), and z(t) are differentiable functions of t. As t varies over an interval, the endpoints of the position vectors...
Real-World Applications of Space Curves01:29

Real-World Applications of Space Curves

Modern aerospace navigation depends on the accurate prediction of motion in three-dimensional space. In defense applications, radar systems continuously track both interceptors and moving aerial targets to find whether their flight paths will result in a collision. These motions are modeled mathematically as space curves, which represent paths that change continuously with time. Each object’s position is described by a vector function that specifies its location in terms of time-dependent...

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Related Experiment Video

Updated: Jun 9, 2026

Virtual Reality Experiments with Physiological Measures
07:09

Virtual Reality Experiments with Physiological Measures

Published on: August 29, 2018

Lessons from EVA-3S and SPACE.

David Beckett1, Peter A Gaines

  • 1Sheffield Vascular Institute, Northern General Hospital, Herries Road, Sheffield S5 7AU, UK.

Cardiovascular and Interventional Radiology
|October 24, 2007
PubMed
Summary
This summary is machine-generated.

Carotid artery stenting (CAS) and carotid endarterectomy (CEA) show similar short-term complication rates for carotid artery disease. However, long-term comparative data remain limited, questioning the added value of recent trials.

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Last Updated: Jun 9, 2026

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Area of Science:

  • Vascular Surgery
  • Interventional Cardiology
  • Neurology

Background:

  • Carotid endarterectomy (CEA) is the traditional standard for carotid occlusive disease.
  • Carotid artery stenting (CAS) has emerged as a less invasive alternative.
  • Existing trials and Cochrane reviews suggest equivalent 30-day complication rates for CEA and CAS.

Purpose of the Study:

  • To evaluate the contribution of two recent trials to the understanding of CAS versus CEA.
  • To assess the long-term comparative data for carotid artery interventions.

Main Methods:

  • Comparison of recent clinical trials investigating CAS and CEA.
  • Analysis of available long-term outcome data for carotid artery interventions.

Main Results:

  • Recent trials have been published comparing CAS and CEA in symptomatic internal carotid artery disease.
  • The added value of these new trials to the existing body of evidence is under scrutiny.
  • Equivalence in 30-day complication rates between CAS and CEA has been previously established.

Conclusions:

  • Long-term comparative data for CAS versus CEA are still insufficient.
  • Further research is needed to clarify the long-term efficacy and safety of CAS compared to CEA.
  • The clinical utility of recent trials in this field requires careful evaluation.