NOM : L’unstoppable de Curie
Description :
Notre réalisation est un train de marchandises intitulé « L’unstoppable » de Curie, d’après le film de Tony Scott.
Ce train est constitué d’une locomotive et d’un wagon.
-La locomotive est un véhicule ferroviaire chargé de la traction du train.
-Le wagon est un véhicule ferroviaire chargé du transport des marchandises.
Lors de la mise en route des deux moteurs présents sous la locomotive et le wagon, l’axe du moteur entraîne en rotation une roue dentée qui entraîne en rotation la roue dentée fixée sur l’axe des deux roues arrière : ce double mécanisme de transmission de mouvement permet la mise en mouvement du train.
De plus, Le wagon possède une trappe contenant une caisse de marchandises qui s'ouvre et se ferme grâce à une transformation de mouvement.
NOM : L’unstoppable de Curie
Description :
Notre réalisation est un train de marchandises intitulé « L’unstoppable » de Curie, d’après le film de Tony Scott.
Ce train est constitué d’une locomotive et d’un wagon.
-La locomotive est un véhicule ferroviaire chargé de la traction du train.
-Le wagon est un véhicule ferroviaire chargé du transport des marchandises.
Lors de la mise en route des deux moteurs présents sous la locomotive et le wagon, l’axe du moteur entraîne en rotation une roue dentée qui entraîne en rotation la roue dentée fixée sur l’axe des deux roues arrière : ce double mécanisme de transmission de mouvement permet la mise en mouvement du train.
De plus, Le wagon possède une trappe contenant une caisse de marchandises qui s'ouvre et se ferme grâce à une transformation de mouvement.
This document provides information about creating wearable electronics using microcontrollers like Arduino, conductive materials, and other components. It discusses popular microcontrollers for wearables like Flora and Gemma, gives examples of components like coin cell batteries, LEDs, conductive thread and fabric, and pressure sensors. It also provides resources for learning more about wearables and where to purchase necessary components.
This document provides instructions for using MIT App Inventor and a $5 Bluetooth module to wirelessly control an Arduino project from an Android device. It details what hardware and software is needed, including an Android device, Arduino, HC-05 Bluetooth module, MIT App Inventor account. It explains how to design the app interface in App Inventor, connect the Bluetooth module to the Arduino, and install the app on the Android device. Code examples are provided to transmit data between the app and Arduino over Bluetooth to control an LED.
Creating Android apps without coding and without programming by using the App Inventor tools.
Slides from the Android Apps Workshop: http://appacademy.dk/foredrag/android-apps-workshop/
App Inventor is an introductory graphical programming tool for building Android apps without coding. It allows users to visually arrange app components and assign behaviors using a block editor. The document outlines what App Inventor is, why it's useful for building apps quickly without coding, and its structure which includes a designer window for building interfaces and blocks editor for assigning logic. It also provides setup requirements and demonstrates a simple app built in 5 minutes with App Inventor.
(Presentation done at the mEducation Alliance event on October 16, 2013)
The mission of the Mobile Innovation Network is to empower young people worldwide to create personally meaningful and socially-relevant mobile applications. The MIN will be an association of Mobile Innovation Clubs, groups formed by youth members and facilitators from community organizations and supported by like-minded technical learning centers.
To learn more about the Network, please check: http://explore.appinventor.mit.edu/MIN_one-pager_14oct13.pdf
I built an application and made this presentation for a class of mine. I wanted to demonstrate how easy Google App Inventor can be to use in building personal apps as well as introducing others to the world of application programing. Your comments and questions are very welcome!
App Inventor is an open source web application powered by Google.This tool helps us to develop android applications in just a few steps. It has its own server all your work gets stored on the Google App Inventor Servers.
Building Apps for Good with MIT App InventorLeo Burd
This document discusses using the App Inventor platform to promote social good. It provides examples of apps developed for better healthcare, safety, science and humanitarian causes. It outlines typical initiatives like youth programs and competitions that foster mobile app development for social purposes. Challenges include access to devices and data, as well as transitioning concepts to finished products. The document proposes taking App Inventor for Good to the next level by establishing a Mobile Innovation Network to support "mobile innovation clubs" globally and adapt tools to meet communities' needs.
- Généralité sur les moteurs deux temps
Fonction des defferentes piece du moteur 2 temps
Le cycle moteur 2 temps
Le refroidissement de moteur 2 temps
-Les différents types de moteurs
Les moteurs à injection indirecte
Les moteurs à injection directe
-Le circuit d'alimentation
Pompe d'alimentation
L'élément filtrant
les injecteurs
- Conclusion
This document provides information about creating wearable electronics using microcontrollers like Arduino, conductive materials, and other components. It discusses popular microcontrollers for wearables like Flora and Gemma, gives examples of components like coin cell batteries, LEDs, conductive thread and fabric, and pressure sensors. It also provides resources for learning more about wearables and where to purchase necessary components.
This document provides instructions for using MIT App Inventor and a $5 Bluetooth module to wirelessly control an Arduino project from an Android device. It details what hardware and software is needed, including an Android device, Arduino, HC-05 Bluetooth module, MIT App Inventor account. It explains how to design the app interface in App Inventor, connect the Bluetooth module to the Arduino, and install the app on the Android device. Code examples are provided to transmit data between the app and Arduino over Bluetooth to control an LED.
Creating Android apps without coding and without programming by using the App Inventor tools.
Slides from the Android Apps Workshop: http://appacademy.dk/foredrag/android-apps-workshop/
App Inventor is an introductory graphical programming tool for building Android apps without coding. It allows users to visually arrange app components and assign behaviors using a block editor. The document outlines what App Inventor is, why it's useful for building apps quickly without coding, and its structure which includes a designer window for building interfaces and blocks editor for assigning logic. It also provides setup requirements and demonstrates a simple app built in 5 minutes with App Inventor.
(Presentation done at the mEducation Alliance event on October 16, 2013)
The mission of the Mobile Innovation Network is to empower young people worldwide to create personally meaningful and socially-relevant mobile applications. The MIN will be an association of Mobile Innovation Clubs, groups formed by youth members and facilitators from community organizations and supported by like-minded technical learning centers.
To learn more about the Network, please check: http://explore.appinventor.mit.edu/MIN_one-pager_14oct13.pdf
I built an application and made this presentation for a class of mine. I wanted to demonstrate how easy Google App Inventor can be to use in building personal apps as well as introducing others to the world of application programing. Your comments and questions are very welcome!
App Inventor is an open source web application powered by Google.This tool helps us to develop android applications in just a few steps. It has its own server all your work gets stored on the Google App Inventor Servers.
Building Apps for Good with MIT App InventorLeo Burd
This document discusses using the App Inventor platform to promote social good. It provides examples of apps developed for better healthcare, safety, science and humanitarian causes. It outlines typical initiatives like youth programs and competitions that foster mobile app development for social purposes. Challenges include access to devices and data, as well as transitioning concepts to finished products. The document proposes taking App Inventor for Good to the next level by establishing a Mobile Innovation Network to support "mobile innovation clubs" globally and adapt tools to meet communities' needs.
- Généralité sur les moteurs deux temps
Fonction des defferentes piece du moteur 2 temps
Le cycle moteur 2 temps
Le refroidissement de moteur 2 temps
-Les différents types de moteurs
Les moteurs à injection indirecte
Les moteurs à injection directe
-Le circuit d'alimentation
Pompe d'alimentation
L'élément filtrant
les injecteurs
- Conclusion
Tour d'horizon des applications mobiles:
- histoire
- marché
- solutions et mise en oeuvre
- applications mobiles en entrerpise
- perspectives
Malheureusement, les slides sont peu parlants sans les commentaires "live".
Cours CNAM sur la programmation Android, partie sur la plateforme Android, l'anatomie d'un projet, les composants, le ccle de vie d'une application, la persistance etc....
Li-Fi is a technology that uses light from LED bulbs to transmit data wirelessly. It works by switching the state of LED bulbs on and off very rapidly in order to transmit digital signals. The fast switching is undetectable to the human eye but allows for high-speed data transmission. Li-Fi has several advantages over traditional Wi-Fi including very high speeds of over 1 Gbps, no interference from radio frequencies, improved security, and energy efficiency. While Li-Fi has promise, it also faces challenges in only working within line of sight of the light source and potentially higher costs than Wi-Fi systems. Researchers continue developing the technology to increase speeds and implementation.
9. Liaison pivot bloc/manivelle Créer une liaison avec M-I revient à définir sur chacune des pièces de la liaison un repère caractéristique de cette liaison Ici on l’associe aux deux portées cylindriques, sur le roulement et sur l’arbre de sortie Le premier repère est défini par : - Une surface cylindrique (direction principale de la liaison ) portée du roulement - Un cercle pour l’origine de la liaison - l’axe X est ici défini par la direction de la chambre du piston Le deuxième par : - la surface cylindrique de contact sur l’arbre - un des cercle de l’épaulement pour origine
10. Liaison pivot suite Lors de la validation de la liaison, les deux repères vont être alignés. Les coches Basculer Z et basculer X permettent d’orienter les repères sur les deux pièces Avant de valider la liaison par l’icône il est préférable de tester l’assemblage par un clic sur ………………………….. L’autre icône permet de revenir en arrière……………………………………… L’axe Z est représenté par ……… L’axe X par…………….