/ December 26, 2015
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Description

Orbits, Kepler and Newton laws ..English andFrench

PRESENTATION:
This software can calculate orbits of the planets of the solarsystem. A planet , size of an asteroid can also be created.
A satellite can be placed in orbit , trajectory is an ellipse or ahyperbola in the conditions of position and initial velocity. Aftercalculation, a simulation of the movement is feasible.
The main data of the trajectory can be displayed properly

DESCRIPTION
A first line of buttons allows you to choose a planet around whichwill evolve the satellite; with the Plx button you can define anasteroid or a planet giving the mass; the minimum mass is 100million tonnes, an asteroid of nearly 1km in diameter; the otherbuttons include the planets of the solar system with theirdimensions and masses known.

The second line is used to define the distance unit and distance(A.U. or astronomical unit (average distance from the Earth to theSun), E6 km (1 million km), E3 Km (1000 km) and Km; for example,choosing the planet Ea(earth) and E3 and 10 on the keyboard gives adistance of 10 000 km, the satellite is up to 10 000 km from thecenter of the earth on the X axis (horizontal).
An indication of the satellite velocity is given for a circularpath and the top speed for an elliptical trajectory.

On the third line is defined radial velocity (Vx) and thetangential speed (Vy) in km / sec.

Finally the Calculation button launches the trajectorycalculation; the data button gives the main data of thetrajectory.(Hide with long click)
If the distance is not changed, several calculations can be runshowing the trajectory of changes following the speedchanges.
A simulation button starts a movement of the satellite on itstrajectory; Long press Stop returns to the calculations page.
The language may be amended after a long press on Information andreboot.

In example (data from earth to perihelion)
-Planete S
-Distance, Choice Km and 147,098,074
-Speed X: 0, y speed: 30.291
or (international station)
-Planete Ea
-Distance, Choice Km and 6720
-Speed Vx: 0, Vy: 7.7
or (Rosetta)
-Planete Plx and 100 for a mass of the comet P67 of 1E13 Kg
-Distance 15 Km
-speed X 0, y = 0.00025
----------------------------
For information, perihelion and speed (at per)of planets of solarsystem:
Mercure 46,001,272 Km 58.98 Km / s
Venus 107,476,259 35.26
Earth 147 098 074 30.291
Mars 206 644 545 26.5
Jupiter 740,520,000 13.71
Saturn 1349 467 375 10.183
Uranus 2748 938 461 7.1
Neptune 4452 940 833 5.487

Orbites , lois de Kepler et Newton
PRESENTATION:
Ce logiciel permet de calculer des orbites autour des planetes dusysteme solaire.Ici , le satellite en orbite a une massenégligeable devant la planete (comme la terre autour du soleil) etn'a pas d'infuence sur le mouvement de la planète (pas comme lalune , qui dans sa rotation , fait bouger la terre) Une planete dela dimension d'un asteroide peut aussi etre cree .
Un satellite peut etre place en orbites et la trajectoire sera uneellipse ou une hyperbole selon les conditions de position et devitesse initiale. Apres calcul ,une simulation du mouvement estrealisable.
Les donnees principales de la trajectoire peuvent etreaffichees

DESCRIPTION:
Une premiere ligne de boutons permet de choisir une planete autourde laquelle va evoluer le satellite ; le bouton Plx permet dedefinir un asteroide ou une planete en indiquant la masse ; lamasse minimale est de 100 millions de tonnes , soit un asteroide depres de 1Km de diametre ;pour
les autres boutons on retrouve les planetes du systeme solaire avecleur dimensions et masses connues.

Orbits, Kepler and Newtonlaws ..English and French

PRESENTATION:
This software can calculate orbits of the planets of the solarsystem. A planet, size of an asteroid can be created aussi.
A satellite can be Placed in orbit, trajectory is an ellipse or ahyperbola in terms of the initial position and velocity. Aftercalculation, a simulation of the movement is feasible.
The main data of the trajectory can be displayed Properly

DESCRIPTION
A first line of buttons Allows you to choose a planet around quiWill evolve the satellite; Plx with the button you can define anasteroid or a planet giving the mass; the minimum mass is 100million tons, an asteroid of Nearly 1km in diameter; Reviews theother buttons include the planets of the solar system With Theirdimensions and masses Known.

The second line is used to define the distance unit and distance(AU or astronomical unit (average distance from the Earth to theSun), E6 km (1 million km), E3 Km (1000 km) and Km; for example,choosing the Ea planet (earth) and E3 and 10 on the keyboard Givesa distance of 10,000 km, the satellite is up to 10 000 km from thecenter of the earth on the X axis (horizontal).
An indication of the satellite velocity is Given for a circularpath and the top speed for an elliptical trajectory.

On the third line is defined radial velocity (Vx) and thetangential speed (Vy) in km / sec.

Finally the Calculation button launches the trajectorycalculation; the data button Gives the hand of the trajectory data.(Hide with long click)
If the distance is not changed, several calculations can be runshowing the trajectory of exchange Following The speedchanges.
A simulation button starts a movement of the satellite is ictstrajectory; Stop long press returns to the calculations page.
The language May be Amended after-long press on Information andreboot.

In example (data from earth to perihelion)
S -PLANETE
-Distance, Choice and Km 147,098,074
-speed X: 0, y speed: 30291
or (international station)
-PLANETE Ea
-Distance, And 6720 Km Choice
-speed Vx: 0, Vy: 7.7
gold (Rosetta)
-PLANETE Plx and 100 for a mass of the comet P67 Kg of 1E13
-Distance 15 Km
-speed X 0, y = 0.00025
----------------------------
For information, perihelion and speed (at per) of planets of solarsystem:
Mercure 46,001,272 Km 58.98 Km / s
Venus 107,476,259 35.26
Earth 30 291 147 098 074
March 206 644 545 26.5
Jupiter 740,520,000 13.71
Saturn 1349 467 375 10 183
Uranus 2748 938 461 7.1
Neptune 4452 940 833 5487

Orbits, Kepler's laws and Newton
PRESENTATION:
This software can calculate the orbits of the planets around thesolaire.Ici system, the satellite in orbit has negligible mass tothe planet (as the earth around the sun) and has no infuence on themotion of the planet ( not like the moon, which, in its rotation,moves the earth) A planet the size of an asteroid can also becreated.
A satellite can be placed in orbits and the trajectory is anellipse or a hyperbola depending on the conditions of position andinitial speed. After calculation, a simulation of the movement isfeasible.
The main data of the trajectory can be Results Showing
  
DESCRIPTION:
A first row of buttons lets you choose a planet around which willevolve the satellite; Plx the button to define a planet or asteroidgiving the mass; the minimum mass is 100 million tonnes, anasteroid of nearly 1km in diameter; for
the other buttons we find the planets of the solar system withtheir masses and dimensions are known.

App Information Orbites lois Kepler et Newton

  • App Name
    Orbites lois Kepler et Newton
  • Package Name
    orbites.kpnw
  • Updated
    December 26, 2015
  • File Size
    589k
  • Requires Android
    Android 1.6 and up
  • Version
  • Developer
    DenCalculs
  • Installs
    100 - 500
  • Price
    Free
  • Category
    Education
  • Developer
  • Google Play Link

DenCalculs Show More...

Orbites lois Kepler et Newton APK
DenCalculs
Orbits, Kepler and Newton laws ..English andFrenchPRESENTATION:This software can calculate orbits of the planets of the solarsystem. A planet , size of an asteroid can also be created.A satellite can be placed in orbit , trajectory is an ellipse or ahyperbola in the conditions of position and initial velocity. Aftercalculation, a simulation of the movement is feasible.The main data of the trajectory can be displayed properlyDESCRIPTIONA first line of buttons allows you to choose a planet around whichwill evolve the satellite; with the Plx button you can define anasteroid or a planet giving the mass; the minimum mass is 100million tonnes, an asteroid of nearly 1km in diameter; the otherbuttons include the planets of the solar system with theirdimensions and masses known.The second line is used to define the distance unit and distance(A.U. or astronomical unit (average distance from the Earth to theSun), E6 km (1 million km), E3 Km (1000 km) and Km; for example,choosing the planet Ea(earth) and E3 and 10 on the keyboard gives adistance of 10 000 km, the satellite is up to 10 000 km from thecenter of the earth on the X axis (horizontal).An indication of the satellite velocity is given for a circularpath and the top speed for an elliptical trajectory.On the third line is defined radial velocity (Vx) and thetangential speed (Vy) in km / sec.Finally the Calculation button launches the trajectorycalculation; the data button gives the main data of thetrajectory.(Hide with long click)If the distance is not changed, several calculations can be runshowing the trajectory of changes following the speedchanges.A simulation button starts a movement of the satellite on itstrajectory; Long press Stop returns to the calculations page.The language may be amended after a long press on Information andreboot.In example (data from earth to perihelion)-Planete S-Distance, Choice Km and 147,098,074-Speed X: 0, y speed: 30.291or (international station)-Planete Ea-Distance, Choice Km and 6720-Speed Vx: 0, Vy: 7.7or (Rosetta)-Planete Plx and 100 for a mass of the comet P67 of 1E13 Kg-Distance 15 Km-speed X 0, y = 0.00025----------------------------For information, perihelion and speed (at per)of planets of solarsystem:Mercure 46,001,272 Km 58.98 Km / sVenus 107,476,259 35.26Earth 147 098 074 30.291Mars 206 644 545 26.5Jupiter 740,520,000 13.71Saturn 1349 467 375 10.183Uranus 2748 938 461 7.1Neptune 4452 940 833 5.487Orbites , lois de Kepler et NewtonPRESENTATION:Ce logiciel permet de calculer des orbites autour des planetes dusysteme solaire.Ici , le satellite en orbite a une massenégligeable devant la planete (comme la terre autour du soleil) etn'a pas d'infuence sur le mouvement de la planète (pas comme lalune , qui dans sa rotation , fait bouger la terre) Une planete dela dimension d'un asteroide peut aussi etre cree .Un satellite peut etre place en orbites et la trajectoire sera uneellipse ou une hyperbole selon les conditions de position et devitesse initiale. Apres calcul ,une simulation du mouvement estrealisable.Les donnees principales de la trajectoire peuvent etreafficheesDESCRIPTION:Une premiere ligne de boutons permet de choisir une planete autourde laquelle va evoluer le satellite ; le bouton Plx permet dedefinir un asteroide ou une planete en indiquant la masse ; lamasse minimale est de 100 millions de tonnes , soit un asteroide depres de 1Km de diametre ;pourles autres boutons on retrouve les planetes du systeme solaire avecleur dimensions et masses connues.Orbits, Kepler and Newtonlaws ..English and FrenchPRESENTATION:This software can calculate orbits of the planets of the solarsystem. A planet, size of an asteroid can be created aussi.A satellite can be Placed in orbit, trajectory is an ellipse or ahyperbola in terms of the initial position and velocity. Aftercalculation, a simulation of the movement is feasible.The main data of the trajectory can be displayed ProperlyDESCRIPTIONA first line of buttons Allows you to choose a planet around quiWill evolve the satellite; Plx with the button you can define anasteroid or a planet giving the mass; the minimum mass is 100million tons, an asteroid of Nearly 1km in diameter; Reviews theother buttons include the planets of the solar system With Theirdimensions and masses Known.The second line is used to define the distance unit and distance(AU or astronomical unit (average distance from the Earth to theSun), E6 km (1 million km), E3 Km (1000 km) and Km; for example,choosing the Ea planet (earth) and E3 and 10 on the keyboard Givesa distance of 10,000 km, the satellite is up to 10 000 km from thecenter of the earth on the X axis (horizontal).An indication of the satellite velocity is Given for a circularpath and the top speed for an elliptical trajectory.On the third line is defined radial velocity (Vx) and thetangential speed (Vy) in km / sec.Finally the Calculation button launches the trajectorycalculation; the data button Gives the hand of the trajectory data.(Hide with long click)If the distance is not changed, several calculations can be runshowing the trajectory of exchange Following The speedchanges.A simulation button starts a movement of the satellite is ictstrajectory; Stop long press returns to the calculations page.The language May be Amended after-long press on Information andreboot.In example (data from earth to perihelion)S -PLANETE-Distance, Choice and Km 147,098,074-speed X: 0, y speed: 30291or (international station)-PLANETE Ea-Distance, And 6720 Km Choice-speed Vx: 0, Vy: 7.7gold (Rosetta)-PLANETE Plx and 100 for a mass of the comet P67 Kg of 1E13-Distance 15 Km-speed X 0, y = 0.00025----------------------------For information, perihelion and speed (at per) of planets of solarsystem:Mercure 46,001,272 Km 58.98 Km / sVenus 107,476,259 35.26Earth 30 291 147 098 074March 206 644 545 26.5Jupiter 740,520,000 13.71Saturn 1349 467 375 10 183Uranus 2748 938 461 7.1Neptune 4452 940 833 5487Orbits, Kepler's laws and NewtonPRESENTATION:This software can calculate the orbits of the planets around thesolaire.Ici system, the satellite in orbit has negligible mass tothe planet (as the earth around the sun) and has no infuence on themotion of the planet ( not like the moon, which, in its rotation,moves the earth) A planet the size of an asteroid can also becreated.A satellite can be placed in orbits and the trajectory is anellipse or a hyperbola depending on the conditions of position andinitial speed. After calculation, a simulation of the movement isfeasible.The main data of the trajectory can be Results Showing  DESCRIPTION:A first row of buttons lets you choose a planet around which willevolve the satellite; Plx the button to define a planet or asteroidgiving the mass; the minimum mass is 100 million tonnes, anasteroid of nearly 1km in diameter; forthe other buttons we find the planets of the solar system withtheir masses and dimensions are known.
Solar system Planets , Comets APK
DenCalculs
Anglais puis FrancaisPlanets and comets and some constellations of ecliptic (fortablets)The software shows the planets of the solar system in their actualposition (mercury neptune) at the beginning of the program thedisplay is the current date. For comets you can see where is Halley(N°232) or 67P Churyumov-Gerasimenko (N° 291) which is now near theorbit of Mars ; Today (5/8/2015) to can find it , in the night,based on the screen, you see the moon , the comet is in directionof your left hand in the ecliptic.Pressing "+" advances the time and moves the planets; more pressingaccelerate the movement "long" pressing increase the increment ofthe movement, pressing "Stop" stops the movement; pressing "-" setback the timeA short press "Today / Day" returns to date; Long press "Today /Day" can choose a date in the format "MM * dd * yy * hh" an example"04 * 15 * 15 * 12" gives 15 April 2015 at 12 noon (Greenwich MeanTime)Pressing the image of the comet can choose among hundreds of cometsin a drop down table; the name and the inclination of the orbit ofthe comet are indicated in the window "Scale"; pressing on theimage of the comet clears the comet. The inclination of the planein which evolves the comet is indicated because some have animportant angle to the mean plane in which the planets evolve; forexample, the comet No. 2 "Hale Bopp" which is roughly perpendicularto the plane of the solar systemInitially, the scale is that of the Mars planet; it is possible toset the scale to Saturn by pressing the key or make Neptune'sscale; the trajectories remain the real scaleLong press "Stop" to display distances from the earth or sunastronomical expressed as a unit or KmThe line through the sun is the origin of the heliocentric repere afixed inclined line gives the position of the perihelion of theEarth (January 4) and a line gives the earth-moon axis to easilyspot the planets in relation to the position of the moon (in theecliptic plane)To see the constellations of ecliptic touch again button scale ,retouch for back-------------------------------------------------------------------------------------------------------------Planetes et cometes et quelques constellations de l'ecliptique(pour tablettes)Le logiciel montre les planetes du systeme solaire dans leurposition reelle (de mercure a neptune) ; au debut du programmel'affichage est celui de la date du jourUn appui court sur "ToDay/Day" fait revenir a la date du jour ;un appui long sur "ToDay/Day"permet de choisir une date au format"MM*dd*yy*hh" , en exemple "04*15*15*12" donne le 15 Avril 2015 a12 heures (heure de Greenwich)Un appui sur l'image de la comete permet de choisir parmisplusieurs centaines de cometes dans un tableau deroulant; le nom etl'inclinaison de l'orbite de la comete sont indiques dans lafenetre "Scale" ; un appui sur l'image de la comete efface lacomete . L'inclinaison du plan dans lequel evolue la comete estindiquee car certaines ont un angle important par rapport au planmoyen dans lequel evoluent les planetes ; en exemple , la cometeN.2 "Hale Bopp" qui est a peu pres perpendiculaire au plan dusysteme solaireAu depart , l'echelle est celle de la planete Mars ; il estpossible de mettre l'echelle a Saturne par appui sur la touche oude mettre a l'echelle de Neptune ; les trajectoires restent al'echelle reelleUn appui long sur "Stop" permet d'afficher les distances parrapport a la terre ou au soleil exprimees en unite astronomiques ouen KmLa ligne qui passe par le soleil est l'origine du repereheliocentrique , une droite fixe inclinee donne la position duperihelie de la terre (le 4 janvier)et une ligne donne l'axe terrelune pour facilement reperer les planetes par rapport a la positionde la lune (dans le plan ecliptique)Pour voir des constellations de l'ecliptique , retoucher le boutond'echelle ; toucher à nouveau pour effacer
Ballistic shoot calculator APK
DenCalculs
French and EnglishCe petit logiciel permet de calculer la trajectoire de ballesenfonction de divers paramètre; les principaux sont lavitesseinitialede la balle et son coefficient de freinage Bc (variable selonlavitesse) ; le profil du coefficient utilisé est le profilG1Le logiciel calcule en valeurs métriques ou anglaises ; lesdonnéesd'entrée sont les suivantes:-distance de tir (50 à 1000 m) ; le fusil peut être réglé surladistance par appui sur "Ok ZR" (Zero range)-la température et l'altitude qui ont une petite influence-la vitesse (m/s ou ft/s)-le coefficient de freinage ( Bc)-la vitesse du vent (km/h ou MP/h)-la direction du vent (sens horaire , 3 comme 3h , ventdedroite)L'appui sur la touche table donne le calcul théorique desdéviationset des corrections selon les distances , un appui anouveau effacela tableL'appui sur la touche MOA permet d'apporter descorrectionsverticales et horizontales ; un click pour 0.25MOAL'appui sur "SHOOT" déclenche un tir sur la cible ; latrajectoireest amplifiée en vertical ; le tir a des conditions"réelles" avecdes variations de vitesse au départ (3%) et desvariations d'anglefonction de la vitesse initiale et de Bc ; desvariationsaléatoires sont aussi données au vent (+/- 15%) ; lerésultat donneun nuage d'impact qui varie avec la distanceLa cible et d'une dimension constante de 50 cm et un appui surlacible efface les trajectoires et les impacts.Addition: touche SLZ pour des tirs en angle à longue distance ;lecoefficient L/D est le rapport longueur sur diamètre de la balle;ce rapport sert à calculer le temps de chute pour des angles detirélevés . L'effacement de l'écran se fait par appui longsurSHOOTThis small software can calculate the trajectory ofbulletsdepending on various parameters; the main ones are theinitialvelocity of the ball and its braking coefficient Bc(variabledepending of the speed); the profile of the coefficientused is theG1 profileThe software calculates in metric or English values; the inputdataare:Shooting -distance (50-1000 m); the gun can be adjusted tothedistance by pressing "Ok ZR" (Zero range)-The temperature and altitude that have a small impact-the speed (m / s or ft / s)-the braking ratio-the wind speed (km / h or MP / h)-The wind direction (clockwise, 3 as 3 o'clock, right wind)Pressing the button table gives the theoreticalcalculationdeviations and corrections as distances, pressing againclears thetablePressing the button will bring MOA vertical andhorizontalcorrections; 0.25 a click for MOAPressing "SHOOT" triggers a shot on target; the path isamplifiedvertical; the shooting conditions "real"with starting the speed variations (3%) and anglevariationsdepending on the initial speed and Bc; random variationsdata arealso the wind (+/- 15%); the result is an impact cloudwhich varieswith the distanceThe target has a constant dimension of 50 cm and pressing onthetarget erases paths and impacts.Addition: SLZ key to long-distance shooting angle; the ratio L /Dis the ratio of length to diameter of the bullet; This ratioisused to calculate the fall time for high angles of fire.Clearingthe screen is done by long pressing SHOOTAddition: Hsht key which allows to enter the firing height(7-15000ft) ; angle can be negative depending on the height ; fixedsomebugs , improvement calculation of braking in altitudeFrench and EnglishThis small software can calculate the trajectory ofbulletsdepending on various parameters; the main ones are theinitialvelocity of the ball and its braking coefficient Bc (variabledependingon the speed); the profile of the coefficient used is theG1profileThe software calculates in metric or English values; the inputdataare:Shooting -distance (50-1000 m); the gun can be adjusted tothedistance by pressing "Ok ZR" (Zero range)-The temperature and altitude that have a small impact-the speed (m / s or ft / s)-the braking coefficient (Bc)-the wind speed (km / h or MP / h)-The wind direction (clockwise, 3 as 3 o'clock, right wind)Pressing the button table gives the theoreticalcalculationdeviations and corrections as distances, support hasagain clearsthe tablePressing the button will bring MOA vertical andhorizontalcorrections; 0.25 a click for MOAPressing "SHOOT" triggers a shot on target; the path isamplifiedvertical; the shooting conditions "real" starting with thevelocityvariations (3%) and angle changes depending on the initialspeedand Bc; random variations are also given wind (+/- 15%); theresultis an impact cloud which varies with the distanceThe target and a constant dimension of 50 cm and support onthetarget erases paths and impacts.Addition: SLZ key to long-distance shooting angle; the ratio L /Dis the ratio of length to diameter of the ball; This report isusedto calculate the fall time for high angles of fire. Clearingthescreen is done by pressing and SHOOTThis small software can calculate the trajectory ofbulletsDepending On various parameters; the main ones are theinitialvelocity of the ball and Its braking coefficient Bc(DEPENDING ofthe variable speed); the profile of the coefficientused is the G1profileThe Software Calculates values ​​in metric or English; theinputdata are:Shooting -distance (50-1000 m); the gun can be adjusted tothedistance by pressing "Ok ZR" (Zero range)-The Temperature and altitude-have a small impact That-the speed (m / s or ft / s)-the braking ratio-the wind speed (km / h or MP / h)-The Wind direction (clockwise, 3 as 3 o'clock, right wind)Pressing the button table Gives the theoreticalcalculationdeviations and corrections as distances, dry againclears thetablePressing the button Will bring MOA vertical andhorizontalcorrections; 0.25 a click for MOAPressing "SHOOT" triggers a shot on target; the vertical pathisamplified; the shooting conditions, "real"starting with the speed variation (3%) and anglevariationsDepending On the initial speed and Bc; random variationsdata areaussi the wind (+/- 15%); the result is an impact cloud quivarieswith the distanceThe target: has a constant dimension of 50 cm and pressing onthetarget erases paths and impacts.Addition: SLZ key to long-distance shooting angle; the L / Dratiois the ratio of length to diameter of the bullet; This ratioisused to calculate the fall time for high angles of fire.Clearingthe screen is done by long pressing SHOOTAddition: Allows qui Hsht key to enter the firing height(7-15000ft); angle can be negative DEPENDING on the height; fixedsomebugs, improvement in calculation of braking altitude
Régler son appareil photo APK
DenCalculs
Ce logiciel permet la simulation d'un Apn etdonne des valeurs de réglage selon la scène et la lumière ; unefonction calcul de la luminance vue par l'Apn est utilisable avecles valeurs calculées par l'Apn ; le résultat est exprimé encd/m2Les données d'un Apn peuvent être entrées (taille capteur, f mini ,maxi , A maxi, vitesse et Iso maxi) et le calcul de valeurs se feraselon ces donnéesAu calcul du réglage , il est évalué la profondeur de champ etl'écart de luminance entre la scène vue et le réglage del'ApnThis software allows thesimulation of a camera and gives the set values ​​according toscene light; a function calculating the luminance seen by the APNcan be used with the values ​​calculated by the APN; the result isexpressed as cd / m2Data from a Apn can be input (sensor size, f min, max, A max, maxspeed and ISO) and the design values ​​will be based on thesedataThe calculation of the adjustment, it is estimated the depth offield and the difference in luminance between the stage and forsetting the Apn
Gravitation2D APK
DenCalculs
This software can calculate the trajectoriesofplanets in a two dimensions space ( the planets aremoving in a plane ) frames with rounded corners are action buttons;the rectangular frames are displays.4 Systems are proposed :-1 center planet and 1 satellite : the mass of the satelliteisconsidered void compared to the planetCentral (eg satellite and Earth or Sun and Earth)-2 Planets : when the masses of the planets influence each other(eg Earth and Moon)-2 planets 1 satellite : two masses influence each other andthemassless 1 satellite is subjected to the action of the2masses-3 Planets : the masses act on each otherIn each system there is a example key and a user key ; keyexampledisplays a context; this context may be amended and registered .the user touches presented in a drop-down Table the contextrecordedby the user ; the recorded contexts can be erased by alongClick...............-----------------------------------------------------------------------------------------Ce logiciel permet de calculer les trajectoires de planetesdansun espace a deux dimensions (les planetes se deplacent dans unplan) Les cadres avec coins arrondis sont des touches d'action ;lescadres rectangulaires sont des affichages.4 Systemes sont proposes:-1 planete centrale et 1 satellite : la masse du satelliteestconsideree comme nulle par rapport a la planete centrale (exemple: Terre et satellite ou Soleil et Terre)-2 planetes : lorsque les masses des planetes influent l'unesurl'autre (exemple Terre et Lune)-2 planetes 1 satellite : 2 masses influent l'une sur l'autre et1satellite sans masse est soumis a l'action des 2 masses-3 Planetes : les masses agissent les unes sur les autresDans chaque systeme il y a une touche exemple et unetoucheutilisateur ; la touche exemple permet d'afficher unesituation ;cette situation peut etre modifiee puisenregistree.la touche utilisateur presente dans un tableau deroulantlessituations enregistrees par l'utilisateur ; lessituationsenregistrees peuvent etre effacees par unlongClick....................This softwarecancalculate the trajectories of planets in a two-dimensionalspace(the planets aremoving in a flat) frames with rounded corners are Actionbuttons;the frames are rectangular displays. 4 Proposed Systems are:-1 And 1 satellite center planet: the mass of the satelliteisregarded Compared To void the planetCentral (eg satellite and Earth Golden Sun and Earth)Planets -2: when the masses of the planets influences Each Other(egEarth and Moon)-2 1 satellite planets: two masses influenced Each Other andthemassless 1 satellite is Subjected to the Action of thetwomasses-3 Planets: the masses act is Each OtherEach system in There Is a key example and a user key; keyexampledisplays a context; May be this context Amended and registered.the user keys presented in a drop-down table the context Recordedbythe user; Recorded the contexts can be erased by longClick...............-----------------------------------------------------------------------------------------This software can calculate the trajectories of planets inaspace has two dimensions (the planets move in a plane) frameswithrounded corners are action buttons; rectangular framesaredisplays.4 Systems are proposed:-1 And 1 satellite center planet the mass of the satelliteisconsidered null in relation to the central planet (egterrestrialand satellite or Sun and Earth)-2 Planets: when the masses of the planets influence each other(egEarth and Moon)-2 1 satellite planets: two masses influence each other andonesatellite without mass is subjected to the action of thetwomasses-3 Planets: the masses act on each otherIn each system there is a key and a user key example; keyexampledisplays a situation; this situation may be amendedandregistered.the user touches presented in a table deroulant thesituationsrecorded by the user; the recorded situations can beerased by alongClick....................
Adjust your camera APK
DenCalculs
This software allows the simulation of acameraand gives the set values according to scene light; afunctioncalculating the luminance seen by the camera can be usedwith thevalues calculated by the ; the result is expressed as cd /m2Data from a camera  can be input (sensor size, f min, max,Amax, max speed and ISO) and the design values will be basedonthese dataWhen the soft makes the calculation of the adjustment, itisestimated the depth of field and the difference inluminancebetween the stage seen and the settings of thecamera 
aide aveugle help blind people 1.0 APK
DenCalculs
FRANCAIS AND ENGLISHLOGICIEL AIDE NON VOYANTSCe logiciel peut apporter une aide aux personnes non voyantesPour l'utiliser , il faut un smartphone Android assez recent(4coeurs) ecran assez large (5") avec une bonne camera frontale etunecouteur .Le smartphone se porte en position portrait a la ceinture aumilieudu corps ,ecran vers l'avant , la camera prend une photoaintervalle defini et une ligne est scannee . Cette ligne peutetrepositionnee vers le bas (le sol est vu a 2 ou 3 metres) ,al'horizontale ou en position intermediaire. Elle peutcomprendre100 , 50 ou 25 pixels ; chaque pixel est analyse et unsoncorrespondant a la couleur est emis ; l'intensite du sonestproportionnelle a la luminosite .En exemple , si la ligne comprend 50 pixels et le son estd'uneseconde , chaque pixel de l'image produira un son de 2centiemes deseconde ; la ligne est balayee de gauche a droite ; unson de pixelplace en debut de sequence identifie un objet a gauche, en fin desequence il identifie un objet a droite-------------------------L'ecran comprend 8 touches , l'utilisateur est cense enutiliserprincipalement 2 , les autres touches etant pour lapersonne quiaidera l'utilisateur.La description qui suit est faite EN PLACE DE L'UTILISATEUR,smartphone sur le ventre , ecran vers l'avant:- la touche ON/OFF est en haut a gauche et un appui court surcettetouche met en route le scan , un appui long arrete lescan-la touche fin est en haut a droite (appui long) ; a l'arretlesreglages sont enregistres et un prochain demarrage se fera aveccesvaleurs- au niveau dessous ,les touches permettent de regler l'intensiteduson dans l'ecouteur (appui long)-la troisieme rangee de touches reglent le niveau du scan (verslebas touche de droite , vers le haut touche degauche)(appuilong)-en bas a droite la touche regle le nombre de pixels duscan(100,50,25), la touche a gauche regle la duree du son ( 1,2,3ou 4secondes)(appui long)----------------------------MISE EN ROUTE.......La suite sur INFO sur le smartphone---------------------------------ENGLISHSOFTWARE help BLIND PEOPLEThis software can provide assistance to blind people ; to useit,need a smartphone Android pretty recent (4 cores) quite widescreen(5 "") with a good camera front and a listener.The smartphone is in position portrait on the belt in the middleofthe body, screen forward, the camera takes a photo atintervaldefined and a line is scanned. This line can bepositioneddownwards (the soil is seen 2 or 3 metres), horizontal orinintermediate position. It may include 100, 50 or 25 pixels;eachpixel is analysis and corresponding sound color is issued;theintensity of sound is proportional of brightness.As an example, if line includes 50 pixels and sound is of asecond,each pixel in the image will produce a sound of 2 hundredthsofsecond; the line is scanned from left to right; pixel placesoundat the beginning of sequence identifies an object left, at theendof sequence identifies an object right.-----------------------The screen has 8 keys, the user is supposed to primarily use 2;other keys as for the person who will help the user.The following description is made in PLACE OF THE USER,smartphoneon the belly, screen forward:-the button ON / OFF is in the upper left and a short press onthisbutton starts the scan, long press stop the scan- the end button is in the upper right (long press); thesettingsare saved and next start will be with these values- at the bottom, the keys are used to set the intensity of thesoundto the listener (long press)-the third row of keys set the scan level (down :right key ,top:left key)(long press)- bottom right the key set the number of pixels in thescan(100,50,25), the key left rule the length of sound (1,2,3 or4seconds)(long press)-----------------------GETTING STARTED....Following in INFO on smartphoneFRENCH AND ENGLISHSOFTWARE HELP BLINDThis software can provide assistance to blind peopleTo use it, you have an Android smartphone fairly recent (4cores)rather large screen (5 ") with a good front camera andanearpiece.The smartphone carries a portrait position the belt in the middleofthe body, screen forward, the camera takes a picture adefinedinterval and a line is scanned. This line can be positioneddown(the floor is given 2 or 3 meters), a horizontal orintermediateposition. It may include 100, 50 or 25 pixels; eachpixel analysisand a sound corresponding to the color is issued; theintensity ofsound is proportional to the luminosity.In example, if the line includes 50 pixels and the sound ofasecond, each pixel of the image will produce a 2 hundredths ofasecond; the line is scanned from left to right; a pixel ofitsplace in the beginning of sequence identifies an object left inthefinal sequence he identifies an object right-------------------------The screen has 8 buttons, the user is supposed to use mainly 2,theother keys being for the person who will help the user.The following description is made POSITIONING THE USER smartphoneonthe belly screen forward:- The ON / OFF button is top left and a short press on thisbuttonstarts the scan, a long press stops scanning-the end button is on the top right (long press); to the stopthesettings are recorded and next boot will be done withthosevalues- At the level below the buttons to adjust the intensity of soundinthe earpiece (long press)-The third row of keys shall regulate the scan level (downrightbutton up left soft key) (long press)-in the bottom right rule affects the number of scanpixels(100,50,25), the left button adjusts the sound duration(1,2,3 or 4seconds) (long press)----------------------------GETTING STARTED....... The following INFO on the smartphone---------------------------------ENGLISHSOFTWARE help BLIND PEOPLE This software can Provide support to blind people; to useit,need a Android smartphone pretty recent (4 cores) quite widescreen(5 "") with a good camera head and a listener.The smartphone is in portrait position on the belt in the middleofthe body, screen forward, the camera takes a picture atdefinedinterval and a line is scanned. This line can bePositionedDownwards (the soil is seen 2 or 3 meters), in horizontalorintermediate position. It May include 100, 50 or 25 pixels;Eachpixel is sound analysis and Corresponding color is Issued;theintensity of sound is proportional of brightness.As an example, if line includes 50 pixels and sound is of asecondcontents, each pixel in the picture will Produce a sound oftwohundredths of second; the line is scanned from left to right;pixelup sound at the Beginning of an identified object sequenceleft, atthe end of an identified object sequence right.-----------------------The screen HAS 8 keys, the user is Supposed to Primarily use2;--other keys as for the person Who will help the user.The Following description is made in PLACE OF THE USER,smartphoneon the belly, screen forward:-the button ON / OFF is in the upper left and a short press onthisbutton starts the scan, long press stop the scan- The end button is in the upper right (long press); thesettingsare saved and next start will be with thesis gains- At the bottom, the keys are used to set the intensity of thesoundto the listener (long press)-the third row of keys set the scan level (down: right key,top:left key) (long press)- The bottom right key set the number of pixels in thescan(100,50,25), left the key rule the length of sound (1,2,3 or4seconds) (long press)-----------------------GETTING STARTED.... Following in INFO one smartphone
Milliards de nombres premiers APK
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Ce logiciel identifie les nombrespremierssitués dans une plage de chiffres ; cette plage peut allerjusqu'à4000 milliards. Deux étapes permettent de déterminer ceschiffres:il s'agit d'abord d'indiquer le chiffre de début de plage.Si rien n'est indiqué , la plage commence à zéro ; l'on nepeutdépasser 4 000 000 000 000 , ensuite il faut choisir une plagedechiffres (100, 100 ou 10 000) ; par défaut la plage est de100chiffres puis faire "Ok recherche" ; les nombres premiers decetteplage sont alors présentés assez rapidement dans unelistedéroulante.Il est possible de mettre à zéro le chiffre de début deplage("Clear") ou de le modifier à droite ("<")Les nombres premiers sont distribués (en apparence) d'unefaçonaléatoire et il est possible de trouver des zones de centainesdechiffres successifs ou il n'y en pas ; ici ce petit logicielpeuten présenter une trentaine de milliards ; si l'on en regarde unparseconde , il faudrait environ 1000 ans pour les voir tous.This softwareidentifiesprime numbers located in a digit range; this range can beup to 4trillion. Two steps to determine these figures: it is firsttoindicate the number of early beach. If nothing is specified, the range starts at zero; cannotexceed 4 000 000 000 000, then you have to choose a rangeofnumbers (100, 100 or 10 000); default range is 100 digits thendo"Ok research"; the prime numbers in this range are thenpresentedfairly quickly in a drop-down list.It is possible to reset the number of early range ("Clear")orchange the right ("<")The prime numbers are distributed (apparently) in a randommannerand it is possible to find areas of hundreds of consecutivedigits,or there is none; Here this small software may submit athirtybillion; if one looks at one per second, it would take about1,000years to see them all.
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