698 research outputs found
Research on gravitational mass sensors Research contract status report, 15 Sep. - 15 Oct. 1965
Gravitational mass sensor - piezoresistive and barium titanate transducers, and torsional stress sensor
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Social and democratic participation in residential settings for older people: realities and aspiration
This paper explores some of the experiences of older people living in residential settings (sheltered, very sheltered housing and residential care), in the context of theories of participation, consumerism and citizenship. It draws on material from personal interviews undertaken with over 100 older people in England and Wales, and also from discussions with staff. Two-thirds of respondents were aged over 85. A significant minority of residents expressed some concerns about the routines of life, such as meals and social contact. Staff expectations of social participation were often unrealistic : for many residents, social contact was more a matter of adjustment than of friendship. Residents did not participate in deciding how the residential settings where they lived should be organised and managed, except for helping with simple domestic tasks. There is a need to change both attitudes and practice to enable older people to participate more fully in these settings
A Gedanken spacecraft that operates using the quantum vacuum (Dynamic Casimir effect)
Conventional rockets are not a suitable technology for deep space missions.
Chemical rockets require a very large weight of propellant, travel very slowly
compared to light speed, and require significant energy to maintain operation
over periods of years. For example, the 722 kg Voyager spacecraft required
13,600 kg of propellant to launch and would take about 80,000 years to reach
the nearest star, Proxima Centauri, about 4.3 light years away. There have been
various attempts at developing ideas on which one might base a spacecraft that
would permit deep space travel, such as spacewarps. In this paper we consider
another suggestion from science fiction and explore how the quantum vacuum
might be utilized in the creation of a novel spacecraft. The spacecraft is
based on the dynamic Casimir effect, in which electromagnetic radiation is
emitted when an uncharged mirror is properly accelerated in the vacuum. The
radiative reaction produces a dissipative force on the mirror that tends to
resist the acceleration of the mirror. This force can be used to accelerate a
spacecraft attached to the mirror. We also show that, in principal, one could
obtain the power to operate the accelerated mirror in such a spacecraft using
energy extracted from the quantum vacuum using the standard Casimir effect
witha parallel plate geometry. Unfortunately the method as currently conceived
generates a miniscule thrust, and is no more practical than a spacewarp, yet it
does provide an interesting demonstration of our current understanding of the
physics of the quantized electromagnetic field in vacuum.Comment: 18 pages, 3 figure
Light levitated geostationary cylindrical orbits are feasible
This paper discusses a new family of non-Keplerian orbits for solar sail spacecraft displaced above or below the Earth's equatorial plane. The work aims to prove the assertion in the literature that displaced geostationary orbits exist, possibly to increase the number of available slots for geostationary communications satellites. The existence of displaced non-Keplerian periodic orbits is ¯rst shown analytically by linearization of the solar sail dynamics around a geostationary point. The full displaced periodic solution of the non-linear equations of motion is then obtained using a Hermite-Simpson collocation method with inequality path constraints. The initial guess to the collocation method is given by the linearized solution and the inequality path constraints are enforced as a box around the linearized solution. The linear and nonlinear displaced periodic orbits are also obtained for the worst-case Sun-sail orientation at the solstices. Near-term and high-performance sails can be displaced between 10 km and 25 km above the Earth's equatorial plane during the summer solstice, while a perforated sail can be displaced above the usual station-keeping box (75 £ 75 km) of nominal geostationary satellites. Light-levitated orbit applications to Space Solar Power are also considered
Research on gravitational mass sensors Quarterly progress report no. 1, 15 Oct. 1964 - 14 Jan. 1965
Lunar orbiter and deep space probe gravitational sensor for determining mass distribution of moon and asteroid
Research on Gravitational Mass Sensors
Gravitational sensor development to measure mass distribution of moon and asteroid
Research on gravitational mass sensors quarterly progress report no. 2, 15 jan. - 14 apr. 1965
Cruciform sensor head, phase shift tuned amplifier, and air bearing support for sensor for detecting presence of small moving mass through gravitational interaction
Rotating gravity gradiometer study
Two rotating gravity gradiometer (RGG) sensors, along with all the external electronics needed to operate them, and the fixtures and special test equipment needed to fill and align the bearings, were assembled in a laboratory, and inspected. The thermal noise threshold of the RGG can be lowered by replacing a damping resistor in the first stage electronics by an active artificial resistor that generates less random voltage noise per unit bandwidth than the Johnson noise from the resistor it replaces. The artificial resistor circuit consists of an operational amplifier, three resistors, and a small DC to DC floating power supply. These are small enough to be retrofitted to the present circuit boards inside the RGG rotor in place of the 3 Megohm resistor. Using the artificial resistor, the thermal noise of the RGG-2 sensor can be lowered from 0.3 Eotvos to 0.15 Eotvos for a 10 sec integration time
Advanced propulsion concepts study: Comparative study of solar electric propulsion and laser electric propulsion
Solar electric propulsion (SEP) and laser electric propulsion (LEP) was compared. The LEP system configuration consists of an 80 kW visible laser source on earth, transmitting via an 8 m diameter adaptively controlled phased array through the atmosphere to a 4 m diameter synchronous relay mirror that tracks the LEP spacecraft. The only significant change in the SEP spacecraft for an LEP mission is the replacement of the two 3.7 m by 33.5 m solar cell arrays with a single 8 m diameter laser photovoltaic array. The solar cell array weight is decreased from 320 kg to 120 kg for an increase in payload of 200 kg and a decrease in specific mass of the power system from 20.5 kg/kW to 7.8 kg/kW
Observational Search for Negative Matter in Intergalactic Voids
Negative matter is a hypothetical form of matter with negative rest mass, inertial mass, and gravitational mass. It is not antimatter. If negative matter could be collected in macroscopic amounts, its negative inertial property could be used to make an continuously operating propulsion system which requires neither energy nor reaction mass, yet still violates no laws of physics. Negative matter has never been observed, but its existence is not forbidden by the laws of physics. We propose that NASA support an extension to an ongoing astrophysical observational effort by da Costa, et al. (1996) which could possibly determine whether or not negative matter exists in the well-documented but little-understood intergalactic voids
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