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200 10$aComputation of general planetary perturbations for resonance cases /$fby Edson F. Goodrich, Lloyd Carpenter
210  1$aGreenbelt, MD :$cGoddard Space Flight Center,$dMarch 1966 , February 1966, June 1965.
215   $a3 volumes
225 1 $aNASA/TM ;$vX-643-66-133
225 1 $aNASA/TN ;$vD-2852
225 1 $aNASA/TN ;$vD-3078
300   $a"March 1966."
300   $a"February 1966."
300   $a"June 1965."
320   $aIncludes bibliographical references.
327   $aPt. 1. --Computation of general planetary perturbations for resonance cases. Pt. 2. --A comparison of components. Pt. 3. --An expansion of the disturbing force.
517 0 $aComputation of general planetary perturbations
606   $aTrigonometry$2nasat
606   $aPerturbation$2nasat
606   $aResonance$2nasat
606   $aComputation$2nasat
615  7$aTrigonometry.
615  7$aPerturbation.
615  7$aResonance.
615  7$aComputation.
700   $aGoodrich$b Edson F.$01417624
702   $aCarpenter$b Lloyd$g(Lloyd William),
712 02$aGoddard Space Flight Center,
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200 1 $aˆL'‰anemone rosso e gli uccelli di De Rada$eRicerche antropologiche ed etnolinguistiche tra gli albanesi d'Italia e dei Balcani$fMario Bellizzi
210   $aCastrovillari$cEditrice il Coscile$d2006
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035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/76839
035   $a(oapen)doab76839
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100   $a20202201d2021      |y         0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
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200 00$aPlasma Biology
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2021
215   $a1 online resource (363 p.)
311 08$a3-0365-1568-2 
311 08$a3-0365-1567-4 
330   $aIrving Langmuir coined the name "plasma" to describe an ionized gas back in 1927. Just over 90 years later, plasma technology is becoming increasingly important in our daily life. For example, in the medical field and dentistry, plasma is used as a method of disinfection and sterilization. Moreover, additional potential novel applications of this technology in different forms of therapy have been proposed. In the agricultural sector, plasma technology could contribute to higher crop yields by enhancing seed germination and the growth of plants, as well as the preservation of foods by disinfection. Plasma technology could also be utilized in environmental applications, including water treatment and remediation, as well as treatment of exhaust gases. Although recent extensive studies have uncovered the broad potential of plasma technology, its mechanisms of action remain unclear. Therefore, further studies aimed at elucidating the molecular mechanisms of plasma technology are required. This book is composed of original articles and reviews investigating the molecular mechanisms of plasma biology. Relevant areas of study include applications in plasma medicine, plasma agriculture, as well as plasma chemistry. Studies on potential therapeutic approaches using plasma itself and plasma-treated solutions are also included.
606   $aTechnology: general issues$2bicssc
610   $aacidification
610   $aacidified nitrite
610   $aagriculture
610   $aamine
610   $aantibacterial
610   $aantibiotic resistance gene
610   $aantibiotic resistant bacteria
610   $aapoptosis
610   $aaqueous solutions
610   $aatmospheric pressure plasma jets
610   $aatmospheric-pressure plasma
610   $aautophagy
610   $abackbone cleavage
610   $abiological activity
610   $abiomaterials
610   $abone regeneration
610   $abreast cancer
610   $acancer
610   $acancer development
610   $acancer treatment
610   $aCandida albicans
610   $aCAP
610   $acarbon assimilation
610   $acarbonyl formation
610   $acell migration
610   $acellular imaging
610   $achitin
610   $achitosan
610   $acold atmospheric plasma
610   $acold atmospheric pressure plasma
610   $acold jet atmospheric pressure plasma
610   $acold plasma treatment
610   $acytotoxicity
610   $adeacetylation
610   $adegradation
610   $aDickeya spp.
610   $adisinfection
610   $aDR5
610   $adrug susceptibility
610   $aE. coli
610   $aendothelial cells VEGF
610   $agenome
610   $agynaecological oncology
610   $ahydrogen peroxide
610   $ahydrolytic enzyme activity
610   $ahydroxylation
610   $ahypochlorous acid
610   $ainactivation
610   $aindividualised profiling
610   $alarge-scale imaging
610   $amachine learning
610   $amalignant melanoma
610   $amathematical modeling
610   $aMdm2-p53
610   $amembrane damage
610   $amesenchymal stem cells
610   $amesoporous silica nanoparticles
610   $amoDCs
610   $amolecular dynamic (MD) simulations
610   $an/a
610   $anitration
610   $anitrite
610   $anon-thermal atmospheric pressure plasma
610   $anon-thermal plasma
610   $aoncology
610   $aosteogenic differentiation
610   $apatient stratification
610   $aPectobacteriaceae
610   $aPectobacterium spp.
610   $aperoxynitrite
610   $aPI3K/mTOR pathway
610   $aplant protection
610   $aplasma
610   $aplasma tissue interaction
610   $aplasma treatment
610   $aplasma-activated medium
610   $apredictive preventive personalised medicine (PPPM/3PM)
610   $apremalignant lesions
610   $aproliferation
610   $areaction network
610   $areactive oxygen and nitrogen species
610   $areactive oxygen species
610   $aregenerative medicine
610   $arisk factors
610   $aRNS
610   $aROS
610   $aROS/RNS
610   $aselective cancer treatment
610   $asilymarin nanoemulsion
610   $asolution plasma process
610   $asterilization
610   $atitanium
610   $aTRAIL
610   $atreatment
610   $avulva cancer
610   $awound healing
615  7$aTechnology: general issues
700   $aSakudo$b Akikazu$4edt$01302978
702   $aYagyu$b Yoshihito$4edt
702   $aSakudo$b Akikazu$4oth
702   $aYagyu$b Yoshihito$4oth
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996   $aPlasma Biology$93026796
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