We found 23 results that contain "device"
Posted on: #iteachmsu
EXAMPLES OF ARTIFICIAL INTELLIGENCE IN USE TODAY
Artificial Intelligence (AI) is the branch of computer sciences that emphasizes the development of intelligence machines, thinking and working like humans. For example, speech recognition, problem-solving, learning, and planning.
Today, Artificial Intelligence is a very popular subject that is widely discussed in the technology and business circles. Many experts and industry analysts argue that AI or machine learning is the future – but if we look around, we are convinced that it’s not the future – it is the present.
With the advancement in technology, we are already connected to AI in one way or the other – whether it is Siri, Watson, or Alexa. Yes, the technology is in its initial phase and more and more companies are investing resources in machine learning, indicating a robust growth in AI products and apps in the near future.
The following statistics will give you an idea of growth!
– In 2014, more than $300 million was invested in AI startups, showing an increase of 300%, compared to the previous year (Bloomberg)
– By 2018, 6 billion connected devices will proactively ask for support. (Gartner)
– By the end of 2018, “customer digital assistants” will recognize customers by face and voice across channels and partners (Gartner)
Today, Artificial Intelligence is a very popular subject that is widely discussed in the technology and business circles. Many experts and industry analysts argue that AI or machine learning is the future – but if we look around, we are convinced that it’s not the future – it is the present.
With the advancement in technology, we are already connected to AI in one way or the other – whether it is Siri, Watson, or Alexa. Yes, the technology is in its initial phase and more and more companies are investing resources in machine learning, indicating a robust growth in AI products and apps in the near future.
The following statistics will give you an idea of growth!
– In 2014, more than $300 million was invested in AI startups, showing an increase of 300%, compared to the previous year (Bloomberg)
– By 2018, 6 billion connected devices will proactively ask for support. (Gartner)
– By the end of 2018, “customer digital assistants” will recognize customers by face and voice across channels and partners (Gartner)
ASSESSING LEARNING
Posted on: #iteachmsu
Mobile app compatibility testing
Pick Popular Phones: Figure out which phones most people use and focus on testing your app on those.
Use Fake Phones: You can use computer programs that act like different phones to test your app without needing the actual devices.
Try Real Phones: Test your app on actual phones to make sure everything looks and works right.
Make Sure Everything Fits: Check that your app's design adjusts properly to fit on screens of different sizes. You don't want things to look weird or cut off.
Make Sure It Works Right: Test all the features of your app to make sure they do what they're supposed to on different phones.
Check If It's Fast: See if your app runs smoothly and doesn't drain the phone's battery too quickly, no matter what kind of phone it's on.
Make Sure It Works with Different Phone Systems: Test your app on different versions of Android and iOS to make sure it works on all of them.
Test It with Bad Internet: Try using your app on slow or spotty internet connections to make sure it still works okay.
Check It in Different Languages: Test your app with different languages and writing styles to make sure everything looks right.
Make Sure It's Easy to Use: See if people who aren't familiar with your app can figure out how to use it without any problems.
Make Sure Everyone Can Use It: Check if your app is accessible for people who might have trouble seeing or hearing things on their phones.
Keep Testing as You Make Changes: Every time you update your app, test it again to make sure you didn't accidentally break anything.
Ask People to Try It: Get feedback from real users to see if there are any problems or things that could be better.
Use Fake Phones: You can use computer programs that act like different phones to test your app without needing the actual devices.
Try Real Phones: Test your app on actual phones to make sure everything looks and works right.
Make Sure Everything Fits: Check that your app's design adjusts properly to fit on screens of different sizes. You don't want things to look weird or cut off.
Make Sure It Works Right: Test all the features of your app to make sure they do what they're supposed to on different phones.
Check If It's Fast: See if your app runs smoothly and doesn't drain the phone's battery too quickly, no matter what kind of phone it's on.
Make Sure It Works with Different Phone Systems: Test your app on different versions of Android and iOS to make sure it works on all of them.
Test It with Bad Internet: Try using your app on slow or spotty internet connections to make sure it still works okay.
Check It in Different Languages: Test your app with different languages and writing styles to make sure everything looks right.
Make Sure It's Easy to Use: See if people who aren't familiar with your app can figure out how to use it without any problems.
Make Sure Everyone Can Use It: Check if your app is accessible for people who might have trouble seeing or hearing things on their phones.
Keep Testing as You Make Changes: Every time you update your app, test it again to make sure you didn't accidentally break anything.
Ask People to Try It: Get feedback from real users to see if there are any problems or things that could be better.
PEDAGOGICAL DESIGN
Posted on: #iteachmsu
What Is the Real Impact of Social Media?
Information and communication technology has changed rapidly over the past 20 years with a key development being the emergence of social media.
The pace of change is accelerating. For example, the development of mobile technology has played an important role in shaping the impact of social media. Across the globe, mobile devices dominate in terms of total minutes spent online. This puts the means to connect anywhere, at any time on any device in everyone’s hands.
The pace of change is accelerating. For example, the development of mobile technology has played an important role in shaping the impact of social media. Across the globe, mobile devices dominate in terms of total minutes spent online. This puts the means to connect anywhere, at any time on any device in everyone’s hands.
Assessing Learning
Posted on: QA groups
Data communications
Data communications refers to the transmission of this digital data between two or more computers and a computer network or data network is a telecommunications network that allows computers to exchange data. The physical connection between networked computing devices is established using either cable media or wireless media. The best-known computer network is the Internet.
Posted on: QA groups
Data communications
Data communications refers to the transmission of this digital data between two or more computers and a computer network or data network is a telecommunications network that allows computers to exchange data. The physical connection between networked computing devices is established using either cable media or wireless media. The best-known computer network is the Internet.
Posted on: Heart Health
Heart health
The heart beats about 2.5 billion times over the average lifetime, pushing millions of gallons of blood to every part of the body. This steady flow carries with it oxygen, fuel, hormones, other compounds, and a host of essential cells. It also whisks away the waste products of metabolism. When the heart stops, essential functions fail, some almost instantly.
Given the heart's never-ending workload, it's a wonder it performs so well, for so long, for so many people. But it can also fail, brought down by a poor diet and lack of exercise, smoking, infection, unlucky genes, and more.
A key problem is atherosclerosis. This is the accumulation of pockets of cholesterol-rich gunk inside the arteries. These pockets, called plaque, can limit blood flow through arteries that nourish the heart — the coronary arteries — and other arteries throughout the body. When a plaque breaks apart, it can cause a heart attack or stroke.
Although many people develop some form of cardiovascular disease (a catch-all term for all of the diseases affecting the heart and blood vessels) as they get older, it isn't inevitable. A healthy lifestyle, especially when started at a young age, goes a long way to preventing cardiovascular disease. Lifestyle changes and medications can nip heart-harming trends, like high blood pressure or high cholesterol, in the bud before they cause damage. And a variety of medications, operations, and devices can help support the heart if damage occurs.
A key problem is atherosclerosis. This is the accumulation of pockets of cholesterol-rich gunk inside the arteries. These pockets, called plaque, can limit blood flow through arteries that nourish the heart — the coronary arteries — and other arteries throughout the body. When a plaque breaks apart, it can cause a heart attack or stroke.
Given the heart's never-ending workload, it's a wonder it performs so well, for so long, for so many people. But it can also fail, brought down by a poor diet and lack of exercise..
+ view more
Given the heart's never-ending workload, it's a wonder it performs so well, for so long, for so many people. But it can also fail, brought down by a poor diet and lack of exercise, smoking, infection, unlucky genes, and more.
A key problem is atherosclerosis. This is the accumulation of pockets of cholesterol-rich gunk inside the arteries. These pockets, called plaque, can limit blood flow through arteries that nourish the heart — the coronary arteries — and other arteries throughout the body. When a plaque breaks apart, it can cause a heart attack or stroke.
Although many people develop some form of cardiovascular disease (a catch-all term for all of the diseases affecting the heart and blood vessels) as they get older, it isn't inevitable. A healthy lifestyle, especially when started at a young age, goes a long way to preventing cardiovascular disease. Lifestyle changes and medications can nip heart-harming trends, like high blood pressure or high cholesterol, in the bud before they cause damage. And a variety of medications, operations, and devices can help support the heart if damage occurs.
A key problem is atherosclerosis. This is the accumulation of pockets of cholesterol-rich gunk inside the arteries. These pockets, called plaque, can limit blood flow through arteries that nourish the heart — the coronary arteries — and other arteries throughout the body. When a plaque breaks apart, it can cause a heart attack or stroke.
Given the heart's never-ending workload, it's a wonder it performs so well, for so long, for so many people. But it can also fail, brought down by a poor diet and lack of exercise..
+ view more
DISCIPLINARY CONTENT
Posted on: #iteachmsu
Data availability
Just over 3 billion people are online with an estimated 17 billion connected devices or sensors. [9] That generates a large amount of data which, combined with decreasing costs of data storage, is easily available for use. Machine learning can use this as training data for learning algorithms, developing new rules to perform increasingly complex tasks.
Just over 3 billion people are online with an estimated 17 billion connected devices or sensors. That generates a large amount of data which, combined with decreasing costs of data storage, is easily available for use. Machine learning can use this as training data for learning algorithms, developing new rules to perform increasingly complex tasks.
Just over 3 billion people are online with an estimated 17 billion connected devices or sensors. [9] That generates a large amount of data which, combined with decreasing costs of data storage, is easily available for use. Machine learning can use this as training data for learning algorithms, developing new rules to perform increasingly complex tasks.
Just over 3 billion people are online with an estimated 17 billion connected devices or sensors. That generates a large amount of data which, combined with decreasing costs of data storage, is easily available for use. Machine learning can use this as training data for learning algorithms, developing new rules to perform increasingly complex tasks.
Just over 3 billion people are online with an estimated 17 billion connected devices or sensors. That generates a large amount of data which, combined with decreasing costs of data storage, is easily available for use. Machine learning can use this as training data for learning algorithms, developing new rules to perform increasingly complex tasks.
Just over 3 billion people are online with an estimated 17 billion connected devices or sensors. [9] That generates a large amount of data which, combined with decreasing costs of data storage, is easily available for use. Machine learning can use this as training data for learning algorithms, developing new rules to perform increasingly complex tasks.
Just over 3 billion people are online with an estimated 17 billion connected devices or sensors. That generates a large amount of data which, combined with decreasing costs of data storage, is easily available for use. Machine learning can use this as training data for learning algorithms, developing new rules to perform increasingly complex tasks.
Posted by: Chathuri Super admin..
Posted on: #iteachmsu
Warning Signs a Child Is Being Cyberbullied
Warning Signs a Child Is Being Cyberbullied or Is Cyberbullying
A child may be involved in cyberbullying in several ways. A child can be bullied, bully others, or witness bullying. Parents, teachers, and other adults may not be aware of all the social media platforms and apps that a child is using. The more digital platforms that a child uses, the more opportunities there are for being exposed to potential cyberbullying.
Many of the warning signs that cyberbullying is occurring happen around a child’s use of their device. Since children spend a lot of time on their devices, increases or decreases in use may be less noticeable. It’s important to pay attention when a child exhibits sudden changes in digital and social behavior. Some of the warning signs that a child may be involved in cyberbullying are:
Noticeable, rapid increases or decreases in device use, including texting.
A child exhibits emotional responses (laughter, anger, upset) to what is happening on their device.
A child hides their screen or device when others are near, and avoids discussion about what they are doing on their device.
Social media accounts are shut down or new ones appear.
A child starts to avoid social situations, even those that were enjoyed in the past.
A child becomes withdrawn or depressed, or loses interest in people and activities.
A child may be involved in cyberbullying in several ways. A child can be bullied, bully others, or witness bullying. Parents, teachers, and other adults may not be aware of all the social media platforms and apps that a child is using. The more digital platforms that a child uses, the more opportunities there are for being exposed to potential cyberbullying.
Many of the warning signs that cyberbullying is occurring happen around a child’s use of their device. Since children spend a lot of time on their devices, increases or decreases in use may be less noticeable. It’s important to pay attention when a child exhibits sudden changes in digital and social behavior. Some of the warning signs that a child may be involved in cyberbullying are:
Noticeable, rapid increases or decreases in device use, including texting.
A child exhibits emotional responses (laughter, anger, upset) to what is happening on their device.
A child hides their screen or device when others are near, and avoids discussion about what they are doing on their device.
Social media accounts are shut down or new ones appear.
A child starts to avoid social situations, even those that were enjoyed in the past.
A child becomes withdrawn or depressed, or loses interest in people and activities.
Posted by: Chathuri Super admin..
Navigating Context
Posted on: #iteachmsu
Internet of Things (IoT)
Internet of Things (IoT):
The Internet of Things (IoT) is a name for the aggregate collection of network-enabled devices, excluding traditional computers like laptops and servers. Types of network connections can include Wi-Fi connections, Bluetooth connections, and near-field communication (NFC). The IoT includes devices such as "smart" appliances, like refrigerators and thermostats; home security systems; computer peripherals, like webcams and printers; wearable technology, such as Apple Watches and Fitbits; routers; and smart speaker devices, like Amazon Echo and Google Home.
The Internet of Things (IoT) is a name for the aggregate collection of network-enabled devices, excluding traditional computers like laptops and servers. Types of network connections can include Wi-Fi connections, Bluetooth connections, and near-field communication (NFC). The IoT includes devices such as "smart" appliances, like refrigerators and thermostats; home security systems; computer peripherals, like webcams and printers; wearable technology, such as Apple Watches and Fitbits; routers; and smart speaker devices, like Amazon Echo and Google Home.
Authored by: Rupali
Posted on: #iteachmsu
Graphical user interface
graphical user interface:
The graphical user interface (GUI is a form of user interface that allows users to interact with electronic devices through graphical icons and audio indicators such as primary notation, instead of text-based user interfaces, typed command labels, or text navigation. GUIs were introduced in reaction to the perceived steep learning curve of command-line interfaces (CLIs), which require commands to be typed on a computer keyboard.
The actions in a GUI are usually performed through direct manipulation of the graphical elements. Beyond computers, GUIs are used in many handheld mobile devices such as MP3 players, portable media players, gaming devices, smartphones, and smaller household, office, and industrial controls. The term GUI tends not to be applied to other lower-display resolution types of interfaces, such as video games ), or not including flat screens, like volumetric displays.
User interface and interaction design:
Designing the visual composition and temporal behavior of a GUI is an important part of software application programming in the area of human-computer interaction. Its goal is to enhance the efficiency and ease of use for the underlying logical design of a stored program, a design discipline named usability. Methods of user-centered design are used to ensure that the visual language introduced in the design is well-tailored to the tasks.
The visible graphical interface features of an application are sometimes referred to as chrome or GUI (pronounced gooey) Typically, users interact with information by manipulating visual widgets that allow for interactions appropriate to the kind of data they hold. The widgets of a well-designed interface are selected to support the actions necessary to achieve the goals of users.
The graphical user interface (GUI is a form of user interface that allows users to interact with electronic devices through graphical icons and audio indicators such as primary notation, instead of text-based user interfaces, typed command labels, or text navigation. GUIs were introduced in reaction to the perceived steep learning curve of command-line interfaces (CLIs), which require commands to be typed on a computer keyboard.
The actions in a GUI are usually performed through direct manipulation of the graphical elements. Beyond computers, GUIs are used in many handheld mobile devices such as MP3 players, portable media players, gaming devices, smartphones, and smaller household, office, and industrial controls. The term GUI tends not to be applied to other lower-display resolution types of interfaces, such as video games ), or not including flat screens, like volumetric displays.
User interface and interaction design:
Designing the visual composition and temporal behavior of a GUI is an important part of software application programming in the area of human-computer interaction. Its goal is to enhance the efficiency and ease of use for the underlying logical design of a stored program, a design discipline named usability. Methods of user-centered design are used to ensure that the visual language introduced in the design is well-tailored to the tasks.
The visible graphical interface features of an application are sometimes referred to as chrome or GUI (pronounced gooey) Typically, users interact with information by manipulating visual widgets that allow for interactions appropriate to the kind of data they hold. The widgets of a well-designed interface are selected to support the actions necessary to achieve the goals of users.
Authored by: Rupali
Posted on: #iteachmsu
Android task monitoring
This project is exclusively designed to simplify the tracking and monitoring of day-to-day activities of the busy modern life. We are so busy in our daily lives right now that it becomes impossible to keep track of our daily events, meetings, and appointments. To address this issue, this project focuses on developing a Weekly Task Alerting System for Android devices that can alert users of the tasks/appointments that are scheduled for each day in a week.
The project is primarily a reminder app powered by an AI chatbot that reminds users of all the tasks that are due daily. Users can use this application to set goals and achieve them, thereby increasing productivity and simplifying their lives.
The project is primarily a reminder app powered by an AI chatbot that reminds users of all the tasks that are due daily. Users can use this application to set goals and achieve them, thereby increasing productivity and simplifying their lives.
Authored by: Divya Sawant
Posted on: #iteachmsu
How Can We Successfully Land a Rover on Mars?
The classic egg drop experiment gets reinvented as a driving question for physics students to explore a real-world problem.
By Suzie Boss
July 26, 2018
When a teenager climbs atop his desk and drops an object to the floor, teacher Johnny Devine doesn’t object. Far from it—he’s as eager as the rest of the class to see what happens next.
In a split second, the student and his teammates get positive feedback for the object they have cobbled together by hand. A small parachute made of plastic and held in place with duct tape opens as planned, slowing the descent and easing the cargo to a safe landing. Students exchange quick smiles of satisfaction as they record data. Their mission isn’t accomplished yet, but today’s test run brings them one step closer to success as aspiring aerospace engineers.
To boost engagement in challenging science content, Devine has his students tackle the same problems that professional scientists and engineers wrestle with. “Right away, they know that what they are learning can be applied to an actual career,” Devine says. “Students are motivated because it’s a real task.”
From the start of Mission to Mars, students know that expert engineers from local aerospace companies will evaluate their final working models of Mars landing devices. Their models will have to reflect the students’ best thinking about how to get a payload from orbit onto the surface of the Red Planet without damaging the goods inside. While real Mars landings involve multimillion-dollar equipment, students’ launchers will carry four fragile eggs.
THE ROAD MAP
Although the project gives students considerable freedom, it unfolds through a series of carefully designed stages, each focused on specific learning goals. Having a detailed project plan “creates a roadmap,” Devine explains, “for the students to really track their progress and see how what they’re learning connects back to the guiding question: How can we successfully land a rover on Mars?”
©George Lucas Educational Foundation
Before introducing technical content, Devine wants students to visualize what space scientists actually do. By watching videos of engineers who design entry, descent, and landing systems for spacecraft, students start getting into character for the work ahead.
Devine introduces a series of hands-on activities as the project unfolds to help students put physics concepts into action. They learn about air resistance, for instance, by experimenting with parachute designs and wrestling with a real challenge: How will they slow their landers to a reasonable speed for entry into the thin Martian atmosphere?
To apply the concept of change in momentum, students design airbag systems to go on the bottom of their landers—a location aptly called the crumple zone. They experiment with bubble wrap and other materials as potential cushioners for their cargo.
As the grand finale approaches, students keep using what they learn to test, analyze, and modify their designs. “You have to repeat the equations with different trials,” one student explains. “Being able to use that math over and over again helps it stick.”
Much of the hands-on learning in this PBL classroom “might look like a traditional physics lab,” Devine acknowledges, with students learning concepts through inquiry investigations. What’s different is the teacher’s ongoing reminder “to make sure students stay in character” as systems engineers. Each lab investigation relates back to their driving question and creates more opportunities for Devine to ask probing questions and formatively assess his students’ understanding. “We do a lot of framing in and framing out after each of those lessons so students have the chance to reflect and connect it back,” the teacher explains.
EXPERT CONVERSATIONS
When it is finally time for students to launch their precious cargo off a second-story landing, engineers from local aerospace companies are standing by to assess results. How many eggs in each lander will survive the fall?
Even more important than the test data are the discussions between experts and students. One engineer, for instance, asks to see earlier versions of a team’s design and hear about the tests that led to modifications. A student named Elizabeth perks up when she hears engineers using the same technical vocabulary that she and her classmates have learned. “It was kind of a connection—this is actually a thing that goes on,” she says.
“They had really deep, meaningful conversations so that students could practice communicating their justification for their designs,” Devine says. Hearing them use academic language and apply physics concepts tells the teacher that students deeply understand the science behind their designs. “At the end of the day, that’s what I’m most concerned about,” he says.
https://youtu.be/bKc2shFqLao
By Suzie Boss
July 26, 2018
When a teenager climbs atop his desk and drops an object to the floor, teacher Johnny Devine doesn’t object. Far from it—he’s as eager as the rest of the class to see what happens next.
In a split second, the student and his teammates get positive feedback for the object they have cobbled together by hand. A small parachute made of plastic and held in place with duct tape opens as planned, slowing the descent and easing the cargo to a safe landing. Students exchange quick smiles of satisfaction as they record data. Their mission isn’t accomplished yet, but today’s test run brings them one step closer to success as aspiring aerospace engineers.
To boost engagement in challenging science content, Devine has his students tackle the same problems that professional scientists and engineers wrestle with. “Right away, they know that what they are learning can be applied to an actual career,” Devine says. “Students are motivated because it’s a real task.”
From the start of Mission to Mars, students know that expert engineers from local aerospace companies will evaluate their final working models of Mars landing devices. Their models will have to reflect the students’ best thinking about how to get a payload from orbit onto the surface of the Red Planet without damaging the goods inside. While real Mars landings involve multimillion-dollar equipment, students’ launchers will carry four fragile eggs.
THE ROAD MAP
Although the project gives students considerable freedom, it unfolds through a series of carefully designed stages, each focused on specific learning goals. Having a detailed project plan “creates a roadmap,” Devine explains, “for the students to really track their progress and see how what they’re learning connects back to the guiding question: How can we successfully land a rover on Mars?”
©George Lucas Educational Foundation
Before introducing technical content, Devine wants students to visualize what space scientists actually do. By watching videos of engineers who design entry, descent, and landing systems for spacecraft, students start getting into character for the work ahead.
Devine introduces a series of hands-on activities as the project unfolds to help students put physics concepts into action. They learn about air resistance, for instance, by experimenting with parachute designs and wrestling with a real challenge: How will they slow their landers to a reasonable speed for entry into the thin Martian atmosphere?
To apply the concept of change in momentum, students design airbag systems to go on the bottom of their landers—a location aptly called the crumple zone. They experiment with bubble wrap and other materials as potential cushioners for their cargo.
As the grand finale approaches, students keep using what they learn to test, analyze, and modify their designs. “You have to repeat the equations with different trials,” one student explains. “Being able to use that math over and over again helps it stick.”
Much of the hands-on learning in this PBL classroom “might look like a traditional physics lab,” Devine acknowledges, with students learning concepts through inquiry investigations. What’s different is the teacher’s ongoing reminder “to make sure students stay in character” as systems engineers. Each lab investigation relates back to their driving question and creates more opportunities for Devine to ask probing questions and formatively assess his students’ understanding. “We do a lot of framing in and framing out after each of those lessons so students have the chance to reflect and connect it back,” the teacher explains.
EXPERT CONVERSATIONS
When it is finally time for students to launch their precious cargo off a second-story landing, engineers from local aerospace companies are standing by to assess results. How many eggs in each lander will survive the fall?
Even more important than the test data are the discussions between experts and students. One engineer, for instance, asks to see earlier versions of a team’s design and hear about the tests that led to modifications. A student named Elizabeth perks up when she hears engineers using the same technical vocabulary that she and her classmates have learned. “It was kind of a connection—this is actually a thing that goes on,” she says.
“They had really deep, meaningful conversations so that students could practice communicating their justification for their designs,” Devine says. Hearing them use academic language and apply physics concepts tells the teacher that students deeply understand the science behind their designs. “At the end of the day, that’s what I’m most concerned about,” he says.
https://youtu.be/bKc2shFqLao
Posted by: Chathuri Super admin..
Assessing Learning
Posted on: #iteachmsu
Para checking with bullet points
Practice self-forgiveness: For starters, don’t beat yourself up too hard. Self-forgiveness can help you feel better about yourself. In fact, it lowers the likelihood of future procrastination.
Reward yourself: If you manage to complete your tasks on time, treat yourself to a nice meal at a restaurant or something similar.
Turn off your phone: This one may sound redundant, yet if you delve deeper and look at the University of Chicago's study on cellphones, which shows that even the mere presence of a wireless device badly impacts our cognitive capacity, you might want to reconsider.
Day-to-day organizing, task prioritizing, and planning ahead are primary time management skills essential for using your time wisely. You should be able to assign levels of importance to different tasks, devise solid plans for their accomplishment, and stick to the strict schedules you set for yourself.
Seemingly unrelated parts of your life, such as regular exercise, eating healthy and getting enough sleep, directly impact your overall efficiency and hence your ability to manage your time. These can be called secondary time management skills.
Effective time management helps you organize your daily activities around your priorities. So, before you start working on improving your time management skills, take some time to identify your key and secondary priorities.
When you're clear on what is most important to you, you can start discovering your preferred method for organizing your time. One effective method you could use is the Eisenhower Matrix.
A variety of time management software exists to help you out in organizing tasks and tracking your overall productivity. Two very helpful tools are Rescuetime and Toggle Track.
To make the best use of your time, you should focus on both core and secondary skills that we've discussed (including your overall health and stress levels).
When you master effective time management, you shall enjoy more time for yourself, reduced stress, enhanced work-life balance, and more stamina to start achieving your dreams!
Effective time management helps you organize your daily activities around your priorities. So, before you start working on improving your time management skills, take some time to identify your key and secondary priorities.
Reward yourself: If you manage to complete your tasks on time, treat yourself to a nice meal at a restaurant or something similar.
Turn off your phone: This one may sound redundant, yet if you delve deeper and look at the University of Chicago's study on cellphones, which shows that even the mere presence of a wireless device badly impacts our cognitive capacity, you might want to reconsider.
Day-to-day organizing, task prioritizing, and planning ahead are primary time management skills essential for using your time wisely. You should be able to assign levels of importance to different tasks, devise solid plans for their accomplishment, and stick to the strict schedules you set for yourself.
Seemingly unrelated parts of your life, such as regular exercise, eating healthy and getting enough sleep, directly impact your overall efficiency and hence your ability to manage your time. These can be called secondary time management skills.
Effective time management helps you organize your daily activities around your priorities. So, before you start working on improving your time management skills, take some time to identify your key and secondary priorities.
When you're clear on what is most important to you, you can start discovering your preferred method for organizing your time. One effective method you could use is the Eisenhower Matrix.
A variety of time management software exists to help you out in organizing tasks and tracking your overall productivity. Two very helpful tools are Rescuetime and Toggle Track.
To make the best use of your time, you should focus on both core and secondary skills that we've discussed (including your overall health and stress levels).
When you master effective time management, you shall enjoy more time for yourself, reduced stress, enhanced work-life balance, and more stamina to start achieving your dreams!
Effective time management helps you organize your daily activities around your priorities. So, before you start working on improving your time management skills, take some time to identify your key and secondary priorities.
Posted by: Super Admin
Disciplinary Content
Posted on: #iteachmsu
Management
Achieving Your Goals
Goals
If you're used to procrastinating, you probably struggle with organizing your day and you constantly postpone your deadlines and goals. This not only consumes all of your time but may also keep you from achieving your dreams.
According to researcher Piers Steel, 95% of people procrastinate at least to some degree. While knowing you're not alone can be comforting, it's also sad to discover how much procrastination can hold you back.
Start by following these simple strategies to overcome your procrastination habits:
Practice self-forgiveness: For starters, don’t beat yourself up too hard. Self-forgiveness can help you feel better about yourself. In fact, it lowers the likelihood of future procrastination.
Reward yourself: If you manage to complete your tasks on time, treat yourself to a nice meal at a restaurant or something similar.
Turn off your phone: This one may sound redundant, yet if you delve deeper and look at the University of Chicago's study on cellphones, which shows that even the mere presence of a wireless device badly impacts our cognitive capacity, you might want to reconsider.
Goals
If you're used to procrastinating, you probably struggle with organizing your day and you constantly postpone your deadlines and goals. This not only consumes all of your time but may also keep you from achieving your dreams.
According to researcher Piers Steel, 95% of people procrastinate at least to some degree. While knowing you're not alone can be comforting, it's also sad to discover how much procrastination can hold you back.
Start by following these simple strategies to overcome your procrastination habits:
Practice self-forgiveness: For starters, don’t beat yourself up too hard. Self-forgiveness can help you feel better about yourself. In fact, it lowers the likelihood of future procrastination.
Reward yourself: If you manage to complete your tasks on time, treat yourself to a nice meal at a restaurant or something similar.
Turn off your phone: This one may sound redundant, yet if you delve deeper and look at the University of Chicago's study on cellphones, which shows that even the mere presence of a wireless device badly impacts our cognitive capacity, you might want to reconsider.
Posted by: Super Admin
Disciplinary Content
Posted on: #iteachmsu
Smoke test on mobile device -- edited
Primer text from The College of William & Mary
ADHD is one of the most commonly diagnosed conditions of children (Centers for Disease
Control and Prevention, 2015).
In a 2016 Centers for Disease Control and Prevention study, scientists found that 6.1 million children aged 2-17 years living in the U.S. had been diagnosed with attention-deficit/hyperactivity disorder (ADHD), which is similar to previous en
Ages 6-11: Approximately 2.4 million children
Ages 12-17: Approximately 3.3 million children
The diagnostic term attention deficit/hyperactivity disorder (ADHD) refers to individuals who display patterns of inattention, impulsivity, and overactive behavior that interfere with daily functioning (American Psychiatric Association [APA], 2013).
The Diagnostic and Statistical Manual (DSM) V (APA, 2013) criteria for diagnosing ADHD list
three types of ADHD and the accompanying characteristics.
Primer text from The College of William & Mary
ADHD is one of the most commonly diagnosed conditions of children (Centers for Disease
Control and Prevention, 2015).
In a 2016 Centers for Disease Control and Prevention study, scientists found that 6.1 million children aged 2-17 years living in the U.S. had been diagnosed with attention-deficit/hyperactivity disorder (ADHD), which is similar to previous en
Ages 6-11: Approximately 2.4 million children
Ages 12-17: Approximately 3.3 million children
The diagnostic term attention deficit/hyperactivity disorder (ADHD) refers to individuals who display patterns of inattention, impulsivity, and overactive behavior that interfere with daily functioning (American Psychiatric Association [APA], 2013).
The Diagnostic and Statistical Manual (DSM) V (APA, 2013) criteria for diagnosing ADHD list
three types of ADHD and the accompanying characteristics.
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Justice and Belonging
Posted on: #iteachmsu
Computer is an advanced electronic device that takes raw data as an input from the user and processes it under the control of a set of instructions (called program), produces a result (output), and saves it for future use.
Posted by: Rupali Jagtap
Posted on: QA groups
Data communications refers to the transmission of this digital data between two or more computers and a computer network or data network is a telecommunications network that allows computers to exchange data. The physical connection between networked computing devices is established using either cable media or wireless media. The best-known computer network is the Internet.
Posted by: Super Admin
Posted on: #iteachmsu
Android software development is the process by which applications are created for devices running the Android operating system. Google states that "Android apps can be written using Kotlin, Java, and C++ languages" using the Android software development kit (SDK), while using other languages is also possible.
Posted by: Chathuri Super admin..
Host: MSU Libraries
Intro to 360 Cameras, 3D Scanners, & Other Digitization Equipment @ DSL: Drop-in Session
Immersive data is everywhere. It's in every digital asset you see in a video game, a YouTube 360 video and the panoramic pictures you take with your mobile device. Drop in to learn about how 360 cameras, 3D scanners and our digitization equipment is used to create these new experiences and apply them to your research, assignments and presentations.
Navigating Context
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Computer Fundamentals
Computer is an advanced electronic device that takes raw data as an input from the user and processes it under the control of a set of instructions (called program), produces a result (output), and saves it for future use. This tutorial explains the foundational concepts of computer hardware, software, operating systems, peripherals, etc. along with how to get the most value and impact from computer technology.