{"id":11893,"date":"2011-07-10T07:34:00","date_gmt":"2011-07-10T07:34:00","guid":{"rendered":"http:\/\/dwarkaparichay.com\/blog\/2011\/07\/on-planetary-electromagnetism-and\/"},"modified":"2018-06-13T17:59:52","modified_gmt":"2018-06-13T12:29:52","slug":"on-planetary-electromagnetism-and","status":"publish","type":"post","link":"https:\/\/dwarkaparichay.com\/blog\/on-planetary-electromagnetism-and\/","title":{"rendered":"On Planetary Electromagnetism and Gravity"},"content":{"rendered":"
<\/a><\/div>\n

Ashwini Kumar Lal<\/i><\/b><\/p>\n

\n<\/div>\n
Town & Country Planning Organisation, New Delhi, India<\/b><\/div>\n
Click to view full profile of Ashwini Kumar Lal at Dwarka Parichay<\/div>\n
\nAbstract<\/b><\/p>\n

Study of the interiors of the various terrestrial planets, as presented in the paper, leads to the possibility of planetary gravity being linked to the electromagnetism generated in the planetary interiors. Findings of the
\nstudy undertaken suggest that Earth\u2019s gravitational attraction may be attributed to magnetic coupling experienced between Earth\u2019s electromagnetism and all the earthly objects\u2014electrically charged or uncharged. More precisely, terrestrial gravity is deemed to be outcome of the bound state of the planetary electromagnetism.<\/p>\n

1. Introduction<\/b><\/p>\n

Jordan and Stevenson et al. [1-3] provide reasonable models of the interiors of the terrestrial planets, based on analysis of the latest available physical data in respect of the various parameters influencing composition of the planetary interiors. The basic assumptions of all their models are that the core dynamos are driven by thermal and\/or chemical convention, that radiogenic heat production is confined to the mantle, and that any inner core (IC) that may nucleate excludes the light alloying component (S or O) which mixes uniformly upward through the outer core (OC). The assumption that the cores contain no radioactive heat sources implies that convective motions necessary to drive a dynamo must be generated either by secular cooling of an
\nentirely fluid OC or by IC solidification. All models assume whole mantle convection. Stevenson et al. found that small changes in the model parameters can result in completely fluid, non-convecting cores (without dynamo action), convecting fluid OCs with IC growth (with dynamo action), and almost solid cores with only thin OC fluid shells now remaining (and preferably with no dynamo).<\/p>\n

2. Earth<\/b><\/p>\n

It has been known since 1600 A.D. that the Earth as a whole is a dipole magnet. Most of the planets, however, are too hot for any magnetic material to retain its magnetism. Temperature within the earth increases with depth at an average rate of 30\u00b0C per km, while the Curie points for iron-bearing minerals are < 800\u00b0C. Furthermore, permanently magnetized minerals cannot move about rapidly enough to account for the changes in the strength, direction and pattern of the Earth\u2019s magnetic field [3]. Interiors of Earth (Figure 1) are probed indirectly using the time-travel of refracted and reflected seismic waves generated by earthquakes. Seismic waves namely, Primary (P) or compression waves and Secondary (S) or Shear waves and others transmitted within the interiors of the Earth provide important clues about the planet\u2019s internal structure (Figure 2). Seismic measurements show that the Earth is primarily divided into four main layers: crust, mantle, outer core, and inner core. The outermost layer, crust, composed mainly of aluminosilicates, has a variable thickness being 35 – 70 km in the continents, and 5 – 10 km thick in ocean basins. The mantle is the layer beneath the crust that extends half way to the centre. It is mainly composed of ferro-magnesium silicates, and is about 2900 km thick. At 1000\u00b0C, mantle is mostly in plastic state. The next layer is 3500 km thick core constituting about 55% of the Earth\u2019s interior, which is separated into two distinct layers\u20142300 km thick liquid outer core and 1200 km thick solid inner core. The most salient feature of the core is that it never transmits S-waves. Since failure to transmit and transverse waves is a distinctive characteristic of liquids, it is generally
\naccepted that the core material is in a liquid state, mainly of molten iron with about 10% sulfur and\/or oxygen
\n(Fe-S-O mix), while the inner core is almost entirely composed of solid iron. At the inner core, where the
\ntemperature reaches incredible level of 3,700\u00b0C, excessively high pressure of 360 GPa prohibits the inner core material to be in liquid state.<\/p>\n

3. Electromagnetism within Earth<\/b><\/p>\n

Origin of Earth\u2019s magnetic field is generally attributed to Coriolis force resulting from Earth\u2019s rotation and generation of self-exciting dynamo in the electrically conducting outer fluid core in view of the observed secular variations in the planet\u2019s magnetic field [3-6]. Stacey suggests that if the light alloying element in the core is sulfur, and if this is confined to the OC, the IC may be mainly of iron and nickel [7,8]. With the possibility of impurities inherent in the IC material, there is always probability of generation of electromotive force within the inner core as well. The process of generation of electromagnetism within the IC, however, is very complex. Presence of Fe and Ni at varying high temperature and pressure conditions within the IC
\nmight also lead to generation of electromotive force within Earth\u2019s IC due to seebeck or thermoelectric effect [9] which could subsequently lead to generation of electromagnetism within the Earth\u2019s IC. Flow of electric currents in the IC might have been triggered also by the influence of the fluctuating electromagnetic field in the adjoining OC. Thus, within Earth\u2019s interiors, electromagnetism is not only generated in the outer core, but it is also produced in the inner core. Planetary dynamo [6] mostly appears to operate with an internal field ~ (2\u03c1\u03a9\/\u03c3)\u00bd, where \u03c1 is the fluid density, \u03a9 is the planetary rotation rate, and \u03c3 is the conductivity (SI Units).<\/p>\n

4. Mechanism of Gravitational Pull<\/b><\/p>\n

Earth\u2019s gravity, it appears, is intrinsically related to the generation of tremendous electromagnetic force within the convecting fluid in the outer core. A probe into the interiors of the Earth [5,6,10,11] indicates that there is
\nperhaps no factor other than the generation of electromagnetism within the planetary interior that is responsible
\nfor the pulling action of earth exerted over worldly objects.<\/p>\n

\nThe giant electromagnet seated within the Earth is bounded by the layers of mantle and crust. As such, the
\nintensity of magnetic field generated due to dynamo action in the Earth\u2019s core gets depleted due to the presence of overlaying layers of mantle and crust comprising mostly of silicates and aluminates. This is the reason why the intensity of Earth\u2019s magnetic field (~1 gauss) experienced on its outer surface is very feeble, rather it is several hundred times weaker than the field between the ends of a toy horseshoe magnet despite Earth retaining its magnetic property. The situation is somewhat similar to the one in which a ferromagnet surrounded by a non- ferrous material still demonstrates pulling effect over magnetic substance like iron needle brought in its proximity.<\/p>\n

So is the case with Earth\u2019s electromagnet. In view of this phenomenon, it could be inferred that gravity of Earth is possibly manifestation of electromagnetism generated in Earth\u2019s interiors. Similar is perhaps true also about other terrestrial planets like Venus, Mars, and Mercury. Effect of gravity on a body is analogous to the action of a magnet on a ferrous material. As regards the mutual interaction between Earth\u2019s gravity and any worldly object, the pull experienced on the object due to Earth\u2019s gravity is perhaps nothing but interaction between the electromagnetism of the Earth and the magnetism of that object. As per the findings of the quantum physics, all ordinary substances (charged or uncharged) do possess some magnetic property though, in some case it may be very feeble (a thousand to a million times less) compared to the effect observed in ferromagnetic materials [12].<\/p>\n

The Earth\u2019s giant electromagnet apparently pulls every object towards its centre with the same intensity as revealed by the Galileo\u2019s experiment. It is so because of its being immensely powerful compared to the magnetism possessed by the various worldly objects. This is possibly the reason, everything appears to be falling under Earth\u2019s gravitational influence with equal intensity. In view of the above, the pull due to the Earth\u2019s gravity experienced by any earthly object is equivalent to the magnetic coupling (interaction) between the Earth\u2019s giant magnetism and the magnetism of that object. This is probably the mechanism of the earth\u2019s gravitational pull.<\/p>\n

5. Venus<\/b><\/p>\n

Since Venus has about the same size and average density as the Earth, it is quite probable that it does possess a metallic core with internal temperatures similar to those in Earth. Lewis [11] suggests that Venus has a massive core of Fe-Ni alloy surrounded by a mantle of Fe2 ++ free magnesium silicates. The lower density of Venus, as compared to Earth\u2019s, indicates that it might have a smaller core than Earth\u2019s. It is also believed, the Venusian core has less sulfur content than Earth\u2019s. No probe sent to Venus has yet detected a magnetic field; if one exists, it is at least 10,000 times weaker than Earth\u2019s. Assuming that Venus and Earth have similar moments of inertia, Toksoz and Johnston [13] have estimated that Venus has a completely separated Fe-Ni core of radius 2900 km. Stevenson et al. [2] predict a stably stratified, completely fluid core likely present state for Venus. The absence of a significant IC in Venus is probably due to its slightly higher temperature and lower central pressure relative to Earth (290 Gpa of Venus compared to Earth\u2019s 360 Gpa). Such a core is unlikely to generate magnetic field. However, according to Stevenson [6], though Coriolis force is dynamically
\nimportant, slow rotation of a planet may be more favourable for a dynamo than the scenario for fast rotation. This aspect favours functioning of the electrical dynamo also within the Venusian core despite the fact that rotational speed of Venus is much less compared to Earth (243 days of Venus against Earth\u2019s 24 hours). Besides, with the presence of stratified electrically conducting materials at varying high temperature and pressure conditions within the Venusian core, there is all likelihood of generation of electromotive force within the core due to seebeck or thermoelectric effect which could lead to generation of electromagnetism within the core.<\/p>\n

Moreover, the electrically conducting materials within the Venusian core is always likely to contain some impurities which could also trigger generation of electromotive force within the electrically conducting Venusian core. Combination of electric currents and generation of electromotive force within the core is an ideal case for generation of electromagnetism within the as the most Venusian core.<\/p>\n

6. Mars<\/b><\/p>\n

Mars admits all possibilities for the state of its core. Stevenson et al. [2] favour a completely fluid core, since it
\npredicts for cosmochemically plausible sulfur content of 15% or more by weight, and also provides an explanation for the absence of substantial magnetic field. In 2003, researchers at NASA\u2019s Jet Propulsion Laboratory [14], after analyzing three years of radio tracking data from the Mars Global Surveyor spacecraft, had reported in Science that Mars has not cooled to a completely solid iron core, rather its interior is made up of either a completely liquid core with a solid inner core. Scientists had earlier seen no signs of contemporary magnetic field in data from Mars, leading them to write off the planet as geologically dead. The 2003 findings about the Martian interiors corrobo rated Stevenson\u2019s prediction [15] made in 2001 regarding Mars having a liquid, conductive outer core with a solid inner core like Earth. Stewart [16] has reported in Science that if a liquid metal moves around a solid core, it could create a dynamo like the one found in Earth\u2019s core. A functional dynamo within the Martian core along with the electrically conducting core materials at high temperature and pressure conditions within the core are, in all probability, is responsible for generation of electromagnetism within the Martian interiors very much the way electromagnetism is generated in the Earth\u2019s interiors.<\/p>\n

7. Mercury<\/b><\/p>\n

Measurements made during the Mariner 10\u2019s flybys detected that Mercury has an intrinsic magnetic field. It was inferred that the field is dominantly dipolar with an average equatorial field intensity of 0.003 gauss which corresponds to roughly 0.07% that of the Earth [17]. Mercury models suggest a large solid IC surrounded by a significant FeS layers. Thermal evolution models of Mercury demonstrate that the core can remain partially liquid depending upon the amount of sulfur present therein. Recent Earth-based radar measurements of Mercury\u2019s rotation have led to discovery of a relatively large longitudinal libration, implying that Mercury\u2019s core is at least partially molten [18]. Notably, the existence of a global magnetic field is consistent with a convection-driven dynamo in liquid outer core. Operation of Mercury\u2019s dynamo requires a liquid layer of minimum thickness of 4% of core radius only [6]. The functional dynamo along with the presence of electrically conducting materials within the interiors of Mercury produce high magnitude electromagnetism as in other terrestrial planets.<\/p>\n

8. Concluding Remarks<\/b><\/p>\n

Discussions in foregoing paragraphs lead to a very interesting probability that gravity of the terrestrial planets
\nmay be intrinsically related to the generation of electromagnetism within their interiors. In other words, gravity
\nand electromagnetism might perhaps be two sides of the same coin with the exception that gravity is electromagnetic force of only attracting type in the light of the observed pulling effect of the gravity force resulting from confinement of planetary dynamo within the interiors of the terrestrial planets. Study of the terrestrial interiors like Earth\u2019s also suggests that gravitational attraction between Earth and any object may be attributed to magnetic coupling experienced between Earth\u2019s magnetism and the magnetism possessed by earthly objects\u2014charged or uncharged. The observations made in the paper might help establish the true nature of the gravity force. Clues provided in the paper may also help resolve longstanding issue in science relating to unification of the fundamental forces (viz. gravity, electromagnetism, weak interaction, and strong interaction) in nature, which is of vital importance in evolving Theory of Everything (TOE). It will be worthwhile undertaking experiments in the laboratory relating to the interaction between solid spheres of metallic and non-metallic objects to test the viability of the hypothesis proposed in the paper. Experiments,
\nperformed in many laboratories in the past, have demonstrated that electromagnetic forces can pull hot gases into distinct structures lending support to the claim made in the paper.<\/div>\n

\n<\/div>\n
Source: International Journal of Astronomy and Astrophysics<\/b><\/div>\n<\/div>\n","protected":false},"excerpt":{"rendered":"

Ashwini Kumar Lal Town & Country Planning Organisation, New Delhi, India Click to view full profile of Ashwini Kumar Lal at Dwarka Parichay Abstract Study of the interiors of the various terrestrial planets, as presented in the paper, leads to the possibility of planetary gravity being linked to the electromagnetism generated in the planetary interiors. Findings of the study undertaken suggest that Earth\u2019s gravitational attraction may be attributed to magnetic coupling experienced between Earth\u2019s electromagnetism and all the earthly objects\u2014electrically charged or uncharged. More precisely, terrestrial gravity is deemed to be outcome of the bound state of the planetary electromagnetism. 1. Introduction Jordan <\/p>\n","protected":false},"author":1,"featured_media":45678,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"footnotes":""},"categories":[64,78,82,1,66],"tags":[65,1881,125,1879],"class_list":["post-11893","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-articles","category-awareness-series","category-inspiration","category-update","category-useful-informations","tag-member-article","tag-news-events-dwarka","tag-personality","tag-update","has_thumb"],"_links":{"self":[{"href":"https:\/\/dwarkaparichay.com\/blog\/wp-json\/wp\/v2\/posts\/11893","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/dwarkaparichay.com\/blog\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/dwarkaparichay.com\/blog\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/dwarkaparichay.com\/blog\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/dwarkaparichay.com\/blog\/wp-json\/wp\/v2\/comments?post=11893"}],"version-history":[{"count":2,"href":"https:\/\/dwarkaparichay.com\/blog\/wp-json\/wp\/v2\/posts\/11893\/revisions"}],"predecessor-version":[{"id":50480,"href":"https:\/\/dwarkaparichay.com\/blog\/wp-json\/wp\/v2\/posts\/11893\/revisions\/50480"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/dwarkaparichay.com\/blog\/wp-json\/wp\/v2\/media\/45678"}],"wp:attachment":[{"href":"https:\/\/dwarkaparichay.com\/blog\/wp-json\/wp\/v2\/media?parent=11893"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/dwarkaparichay.com\/blog\/wp-json\/wp\/v2\/categories?post=11893"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/dwarkaparichay.com\/blog\/wp-json\/wp\/v2\/tags?post=11893"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}