We found 50 results that contain "videos"
Posted on: #iteachmsu
Cypress
Cypress is an open-source and free test automation tool, which can be used extensively in the long run. It is mainly used for front end test automation. This tool is mainly developed to solve the issues that the teams face, while automating an application.
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Posted on: #iteachmsu
Cypress
Cypress is an open-source and free test automation tool, which can be used extensively in the long run. It is mainly used for front end test automation. This tool is mainly developed to solve the issues that the teams face, while automating an application.
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Posted on: #iteachmsu
Cypress
Cypress is an open-source and free test automation tool, which can be used extensively in the long run. It is mainly used for front end test automation. This tool is mainly developed to solve the issues that the teams face, while automating an application.
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Posted on: #iteachmsu
Cypress
Cypress is an open-source and free test automation tool, which can be used extensively in the long run. It is mainly used for front end test automation. This tool is mainly developed to solve the issues that the teams face, while automating an application.
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Posted on: #iteachmsu
Cypress
Cypress is an open-source and free test automation tool, which can be used extensively in the long run. It is mainly used for front end test automation. This tool is mainly developed to solve the issues that the teams face, while automating an application.
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Posted on: #iteachmsu
Cypress
Cypress is an open-source and free test automation tool, which can be used extensively in the long run. It is mainly used for front end test automation. This tool is mainly developed to solve the issues that the teams face, while automating an application.
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Posted on: #iteachmsu
Cypress
Cypress is an open-source and free test automation tool, which can be used extensively in the long run. It is mainly used for front end test automation. This tool is mainly developed to solve the issues that the teams face, while automating an application.
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Posted on: #iteachmsu
Cypress
Cypress is an open-source and free test automation tool, which can be used extensively in the long run. It is mainly used for front end test automation. This tool is mainly developed to solve the issues that the teams face, while automating an application.
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Cypress helps to achieve the following −
Configure tests.
Configure tests.
Execute tests.
Identify errors (if any).
Selenium and Cypress are often compared in terms of their functionalities. However, Cypress is different in architecture and features. Moreover, it resolves some of the issues we face in Selenium.
Cypress is based on Javascript and executes tests within the browser. It helps to develop the tests which include −
Unit tests.
End to end tests.
Integration tests.
Features
The important features of Cypress are listed below −
Supports Test-Driven development.
Provides Dashboard services.
Efficient debugging with Developer Tools accompanied with generation of stack trace and errors.
Provides the screenshots for failed tests.
Not necessary to add waits to stop the execution for some time. By-default, the waits are applied, prior to executing the following step or assertion.
Able to monitor and control the characteristics of server response, functions, and timers, which are essentially needed for unit testing.
Check and manage network traffic.
Allows the multi-browser support.
In-built feature to capture videos of execution is available.
Can be integrated with continuous integration tools.
Page responsiveness with viewport sizing.
Reloads changes applied to tests by default.
Friendly Application Programming Interfaces (APIs) are available.
Test runner available, which allows the test execution straight from the User Interface (UI).
Posted on: #iteachmsu
AI can turn spoken language into photorealistic sign language videos Read more: https://www.newscie
An AI that can produce photorealistic videos of sign language interpreters from speech could improve accessibility by removing the need for humans.
Ben Saunders at the University of Surrey, UK, and his colleagues used a neural network that converts spoken language into sign language. The system, called SignGAN, then maps these signs on to a 3D model of the human skeleton.
The team also trained the AI on videos of real sign language interpreters, teaching it how to create a photorealistic video of anyone signing based off an image of …
Read more: https://www.newscientist.com/article/2261113-ai-can-turn-spoken-language-into-photorealistic-sign-language-videos/#ixzz6g1KMybts
Ben Saunders at the University of Surrey, UK, and his colleagues used a neural network that converts spoken language into sign language. The system, called SignGAN, then maps these signs on to a 3D model of the human skeleton.
The team also trained the AI on videos of real sign language interpreters, teaching it how to create a photorealistic video of anyone signing based off an image of …
Read more: https://www.newscientist.com/article/2261113-ai-can-turn-spoken-language-into-photorealistic-sign-language-videos/#ixzz6g1KMybts
Posted by: Greg Thomsan
Pedagogical Design
Posted on: #iteachmsu
3 Kinds of Exercise That Boost Heart Health
Aerobic Exercise
What it does: Aerobic exercise improves circulation, which results in lowered blood pressure and heart rate, Stewart says. In addition, it increases your overall aerobic fitness, as measured by a treadmill test, for example, and it helps your cardiac output (how well your heart pumps). Aerobic exercise also reduces the risk of type 2 diabetes and, if you already live with diabetes, helps you control your blood glucose.
How much: Ideally, at least 30 minutes a day, at least five days a week.
Examples: Brisk walking, running, swimming, cycling, playing tennis, and jumping rope. Heart-pumping aerobic exercise is the kind that doctors have in mind when they recommend at least 150 minutes per week of moderate activity.
Resistance Training (Strength Work)
What it does: Resistance training has a more specific effect on body composition, Stewart says. For people who are carrying a lot of body fat (including a big belly, which is a risk factor for heart disease), it can help reduce fat and create leaner muscle mass. Research shows that a combination of aerobic exercise and resistance work may help raise HDL (good) cholesterol and lower LDL (bad) cholesterol.
How much: At least two nonconsecutive days per week of resistance training is a good rule of thumb, according to the American College of Sports Medicine.
Examples: Working out with free weights (such as hand weights, dumbbells, or barbells), on weight machines, with resistance bands or through body-resistance exercises, such as push-ups, squats, and chin-ups.
Stretching, Flexibility, and Balance
What they do: Flexibility workouts, such as stretching, don’t directly contribute to heart health. What they do is benefit musculoskeletal health, which enables you to stay flexible and free from joint pain, cramping, and other muscular issues. That flexibility is a critical part of being able to maintain aerobic exercise and resistance training, says Stewart.
“If you have a good musculoskeletal foundation, that enables you to do the exercises that help your heart,” he says. As a bonus, flexibility and balance exercises help maintain stability and prevent falls, which can cause injuries that limit other kinds of exercise.
How much: Every day and before and after another exercise.
Examples: Your doctor can recommend basic stretches you can do at home, or you can find DVDs or YouTube videos to follow (though check with your doctor if you’re concerned about the intensity of the exercise). Tai chi and yoga also improve these skills, and classes are available in many communities.Testing
What it does: Aerobic exercise improves circulation, which results in lowered blood pressure and heart rate, Stewart says. In addition, it increases your overall aerobic fitness, as measured by a treadmill test, for example, and it helps your cardiac output (how well your heart pumps). Aerobic exercise also reduces the risk of type 2 diabetes and, if you already live with diabetes, helps you control your blood glucose.
How much: Ideally, at least 30 minutes a day, at least five days a week.
Examples: Brisk walking, running, swimming, cycling, playing tennis, and jumping rope. Heart-pumping aerobic exercise is the kind that doctors have in mind when they recommend at least 150 minutes per week of moderate activity.
Resistance Training (Strength Work)
What it does: Resistance training has a more specific effect on body composition, Stewart says. For people who are carrying a lot of body fat (including a big belly, which is a risk factor for heart disease), it can help reduce fat and create leaner muscle mass. Research shows that a combination of aerobic exercise and resistance work may help raise HDL (good) cholesterol and lower LDL (bad) cholesterol.
How much: At least two nonconsecutive days per week of resistance training is a good rule of thumb, according to the American College of Sports Medicine.
Examples: Working out with free weights (such as hand weights, dumbbells, or barbells), on weight machines, with resistance bands or through body-resistance exercises, such as push-ups, squats, and chin-ups.
Stretching, Flexibility, and Balance
What they do: Flexibility workouts, such as stretching, don’t directly contribute to heart health. What they do is benefit musculoskeletal health, which enables you to stay flexible and free from joint pain, cramping, and other muscular issues. That flexibility is a critical part of being able to maintain aerobic exercise and resistance training, says Stewart.
“If you have a good musculoskeletal foundation, that enables you to do the exercises that help your heart,” he says. As a bonus, flexibility and balance exercises help maintain stability and prevent falls, which can cause injuries that limit other kinds of exercise.
How much: Every day and before and after another exercise.
Examples: Your doctor can recommend basic stretches you can do at home, or you can find DVDs or YouTube videos to follow (though check with your doctor if you’re concerned about the intensity of the exercise). Tai chi and yoga also improve these skills, and classes are available in many communities.Testing
Authored by: Viju
Navigating Context
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
Tips to increase your hemoglobin levels
Here are some tips to keep in mind to increase your hemoglobin levels:
Switch to brown rice: As a superfood, brown rice can help prevent various diseases related to cholesterol and the gastrointestinal system. It is rich in iron, containing 0.52 milligrams of iron for every 100 grams.
Enjoy dark chocolate: With over 80% of cocoa, dark chocolate naturally improves hemoglobin levels. Plus, it is loaded with minerals, nutrients and antioxidants.
Drink nettle tea: The spice nettle has also proven to be a good source of iron and vitamin B and C. They can also play a part in increasing hemoglobin levels.
Exercise: Take up moderate to high-intensity exercise to help your body produce more hemoglobin to meet the oxygen demands of your body.
Stay tuned to the Activ Living Community. Keep up to date with the latest health tips and trends through expert videos, podcasts, articles, and much more in nutrition, fitness, mindfulness, and lifestyle conditions like Asthma, Blood Pressure, Cholesterol, and Diabetes.
Switch to brown rice: As a superfood, brown rice can help prevent various diseases related to cholesterol and the gastrointestinal system. It is rich in iron, containing 0.52 milligrams of iron for every 100 grams.
Enjoy dark chocolate: With over 80% of cocoa, dark chocolate naturally improves hemoglobin levels. Plus, it is loaded with minerals, nutrients and antioxidants.
Drink nettle tea: The spice nettle has also proven to be a good source of iron and vitamin B and C. They can also play a part in increasing hemoglobin levels.
Exercise: Take up moderate to high-intensity exercise to help your body produce more hemoglobin to meet the oxygen demands of your body.
Stay tuned to the Activ Living Community. Keep up to date with the latest health tips and trends through expert videos, podcasts, articles, and much more in nutrition, fitness, mindfulness, and lifestyle conditions like Asthma, Blood Pressure, Cholesterol, and Diabetes.
Authored by: Vijaya
Assessing Learning
Posted on: #iteachmsu
Which Foods You Should Eat To Increase Hemoglobin Count?
Hemoglobin is an iron-rich protein in red blood cells (RBCs). The normal hemoglobin range for men is 13.5 to 17.5 gm/dL and 12 to 15.5 gm/dL for women. It is of utmost importance to maintain hemoglobin concentration.
What you need to know:
What functions does hemoglobin perform in our bodies?
What causes low hemoglobin?
Symptoms of low hemoglobin
What are the foods that can increase hemoglobin level?
Tips to increase your hemoglobin levels
What functions does hemoglobin perform in our bodies?
Hemoglobin is vital for carrying oxygen from the lungs to tissues and organs. It also transports carbon dioxide from the tissues back to the lungs.
What causes low hemoglobin?
Some common causes of low hemoglobin are:
Substantial blood loss
Deficiency in iron, vitamin B, and folate
Kidney disease
Hypothyroidism
Thalassemia
Lung diseases
Excessive smoking
Any type of blood loss can cause anemia, including blood loss from surgery, heavy menstrual periods, and bleeding in the gastrointestinal tract.
Symptoms of low hemoglobin
You can detect extremely low hemoglobin levels in your system in a few ways. They include
A fast or irregular heartbeat
Fatigue
Frequent or unexplained bruising
Shortness of breath
Liver and kidney disease
Pale skin and gums
Muscle weakness
Reoccurring headaches
Dizziness
Poor appetite
Anemia in severe cases
Elevated hemoglobin levels are associated with dehydration, heart failure, and chronic lung disease. In some conditions, the bone marrow may not produce enough RBCs, leading to cancers like leukemia, lymphoma, or tumors that spread from other parts of the body into the bone marrow.
What are the foods that can improve your hemoglobin levels?
It is essential to boost your food intake to raise your hemoglobin levels. Here are some foods to increase hemoglobin levels:
Iron-rich foods: Consume iron-rich foods like fish, meat, eggs, soy products, broccoli, green leafy vegetables that include spinach, fenugreek leaves, cauliflower, green peas, cabbage, green beans, nuts and seeds, and peanut butter, to increase your hemoglobin levels.
Vitamin A: It is pertinent to consume vitamin A foods to increase hemoglobin as they absorb more iron. Vitamin A and beta-carotene can help you there. Vitamin A is found in animal food sources, such as fish and liver. Beta-carotene is found in red, yellow, and orange fruits and vegetables.
Folate: Folate is a type of Vitamin B that plays an essential part in hemoglobin production. A shortage of folate can prevent the red blood cells from maturing, leading to anemia. Some good sources of folate include beef, rice, black-eyed peas, kidney beans, lettuce, and peanuts.
Foods rich in vitamin C: A combination of iron and vitamin C can prove to be beneficial. The latter is used for better absorption of iron. Foods rich in vitamin C include oranges, lemon, strawberries, papaya, bell peppers, broccoli, and tomatoes.
Fruits: It is also perfect to have fruits like beetroot, apple, watermelon, papaya, oranges, litchis, kiwis, strawberries, grapefruit, banana, and peach, which can boost hemoglobin levels. Plus, dry fruits, like dates, can increase the number of erythrocytes, thereby increasing hemoglobin levels. They contain iron, vitamin C, vitamin B complex, and folic acid, which helps in the formation of red blood cells. Raisins are also a rich source of iron and copper necessary to form red blood cells.
Avoid iron blockers: Foods that block your body’s ability to absorb iron, such as coffee, tea, alcohol, and aerated drinks, should be avoided.
Tips to increase your hemoglobin levels
Here are some tips to keep in mind to increase your hemoglobin levels:
Switch to brown rice: As a superfood, brown rice can help prevent various diseases related to cholesterol and the gastrointestinal system. It is rich in iron, containing 0.52 milligrams of iron for every 100 grams.
Enjoy dark chocolate: With over 80% of cocoa, dark chocolate naturally improves hemoglobin levels. Plus, it is loaded with minerals, nutrients and antioxidants.
Drink nettle tea: The spice nettle has also proven to be a good source of iron and vitamin B and C. They can also play a part in increasing hemoglobin levels.
Exercise: Take up moderate to high-intensity exercise to help your body produce more hemoglobin to meet the oxygen demands of your body.
Stay tuned to the Activ Living Community. Keep up to date with the latest health tips and trends through expert videos, podcasts, articles, and much more in nutrition, fitness, mindfulness, and lifestyle conditions like Asthma, Blood Pressure, Cholesterol, and Diabetes.
You may also be interested in the following blogs:
10 Vegetarian Foods That Are Rich In Iron
Want to Add Iron Rich Foods to Add in Your Diet? Check Out These Iron Rich Foods.
What you need to know:
What functions does hemoglobin perform in our bodies?
What causes low hemoglobin?
Symptoms of low hemoglobin
What are the foods that can increase hemoglobin level?
Tips to increase your hemoglobin levels
What functions does hemoglobin perform in our bodies?
Hemoglobin is vital for carrying oxygen from the lungs to tissues and organs. It also transports carbon dioxide from the tissues back to the lungs.
What causes low hemoglobin?
Some common causes of low hemoglobin are:
Substantial blood loss
Deficiency in iron, vitamin B, and folate
Kidney disease
Hypothyroidism
Thalassemia
Lung diseases
Excessive smoking
Any type of blood loss can cause anemia, including blood loss from surgery, heavy menstrual periods, and bleeding in the gastrointestinal tract.
Symptoms of low hemoglobin
You can detect extremely low hemoglobin levels in your system in a few ways. They include
A fast or irregular heartbeat
Fatigue
Frequent or unexplained bruising
Shortness of breath
Liver and kidney disease
Pale skin and gums
Muscle weakness
Reoccurring headaches
Dizziness
Poor appetite
Anemia in severe cases
Elevated hemoglobin levels are associated with dehydration, heart failure, and chronic lung disease. In some conditions, the bone marrow may not produce enough RBCs, leading to cancers like leukemia, lymphoma, or tumors that spread from other parts of the body into the bone marrow.
What are the foods that can improve your hemoglobin levels?
It is essential to boost your food intake to raise your hemoglobin levels. Here are some foods to increase hemoglobin levels:
Iron-rich foods: Consume iron-rich foods like fish, meat, eggs, soy products, broccoli, green leafy vegetables that include spinach, fenugreek leaves, cauliflower, green peas, cabbage, green beans, nuts and seeds, and peanut butter, to increase your hemoglobin levels.
Vitamin A: It is pertinent to consume vitamin A foods to increase hemoglobin as they absorb more iron. Vitamin A and beta-carotene can help you there. Vitamin A is found in animal food sources, such as fish and liver. Beta-carotene is found in red, yellow, and orange fruits and vegetables.
Folate: Folate is a type of Vitamin B that plays an essential part in hemoglobin production. A shortage of folate can prevent the red blood cells from maturing, leading to anemia. Some good sources of folate include beef, rice, black-eyed peas, kidney beans, lettuce, and peanuts.
Foods rich in vitamin C: A combination of iron and vitamin C can prove to be beneficial. The latter is used for better absorption of iron. Foods rich in vitamin C include oranges, lemon, strawberries, papaya, bell peppers, broccoli, and tomatoes.
Fruits: It is also perfect to have fruits like beetroot, apple, watermelon, papaya, oranges, litchis, kiwis, strawberries, grapefruit, banana, and peach, which can boost hemoglobin levels. Plus, dry fruits, like dates, can increase the number of erythrocytes, thereby increasing hemoglobin levels. They contain iron, vitamin C, vitamin B complex, and folic acid, which helps in the formation of red blood cells. Raisins are also a rich source of iron and copper necessary to form red blood cells.
Avoid iron blockers: Foods that block your body’s ability to absorb iron, such as coffee, tea, alcohol, and aerated drinks, should be avoided.
Tips to increase your hemoglobin levels
Here are some tips to keep in mind to increase your hemoglobin levels:
Switch to brown rice: As a superfood, brown rice can help prevent various diseases related to cholesterol and the gastrointestinal system. It is rich in iron, containing 0.52 milligrams of iron for every 100 grams.
Enjoy dark chocolate: With over 80% of cocoa, dark chocolate naturally improves hemoglobin levels. Plus, it is loaded with minerals, nutrients and antioxidants.
Drink nettle tea: The spice nettle has also proven to be a good source of iron and vitamin B and C. They can also play a part in increasing hemoglobin levels.
Exercise: Take up moderate to high-intensity exercise to help your body produce more hemoglobin to meet the oxygen demands of your body.
Stay tuned to the Activ Living Community. Keep up to date with the latest health tips and trends through expert videos, podcasts, articles, and much more in nutrition, fitness, mindfulness, and lifestyle conditions like Asthma, Blood Pressure, Cholesterol, and Diabetes.
You may also be interested in the following blogs:
10 Vegetarian Foods That Are Rich In Iron
Want to Add Iron Rich Foods to Add in Your Diet? Check Out These Iron Rich Foods.
Authored by: Vijaya
Assessing Learning
Posted on: #iteachmsu
Support Student Learning in a Digital Learning Environment
Educator provides evidence
of their understanding of communication and outlines and provides evidence of a lesson that uses technology to support students’ use of communication in learning.
Method Components
What are the 4Cs?
The 4Cs for 21st century learning are Creativity, Critical Thinking, Communication, and Collaboration. They are part of the framework for 21st Century Learning and are designed to support student learning in today’s world and are skills they can use in college and career.
What is communication (and what isn’t it)?
The P21 framework emphasizes effective use of oral, written, and nonverbal communication skills for multiple purposes (e.g., to inform, instruct, motivate, persuade, and share ideas). It also focuses on effective listening, using technology to communicate, and being able to evaluate the effectiveness of communication efforts—all within diverse contexts (adapted from P21). Note that working in partners is a great way to collaborate or build shared understanding but a critical part of communication is sharing with an authentic audience.
Example strategies that use technology to support communication in the classroom:
Host a TED-style conference or showcases for your students to present original ideas on a topic of interest to them to an authentic, external audience. Record and post the videos to a youtube stream.
Provide opportunities to listen and ask questions through back channel tools like Today’s Meet or even Twitter.
Have your students publish their work through blogs, by creating websites, and by building other online resources that are shared with authentic audiences.
For other ideas see the resources below.
of their understanding of communication and outlines and provides evidence of a lesson that uses technology to support students’ use of communication in learning.
Method Components
What are the 4Cs?
The 4Cs for 21st century learning are Creativity, Critical Thinking, Communication, and Collaboration. They are part of the framework for 21st Century Learning and are designed to support student learning in today’s world and are skills they can use in college and career.
What is communication (and what isn’t it)?
The P21 framework emphasizes effective use of oral, written, and nonverbal communication skills for multiple purposes (e.g., to inform, instruct, motivate, persuade, and share ideas). It also focuses on effective listening, using technology to communicate, and being able to evaluate the effectiveness of communication efforts—all within diverse contexts (adapted from P21). Note that working in partners is a great way to collaborate or build shared understanding but a critical part of communication is sharing with an authentic audience.
Example strategies that use technology to support communication in the classroom:
Host a TED-style conference or showcases for your students to present original ideas on a topic of interest to them to an authentic, external audience. Record and post the videos to a youtube stream.
Provide opportunities to listen and ask questions through back channel tools like Today’s Meet or even Twitter.
Have your students publish their work through blogs, by creating websites, and by building other online resources that are shared with authentic audiences.
For other ideas see the resources below.
Authored by: NC state
Disciplinary Content
Posted on: #iteachmsu
Support Student Learning in a Digital Learning Environment
What is communication (and what isn’t it)?
The P21 framework emphasizes the effective use of oral, written, and nonverbal communication skills for multiple purposes (e.g., to inform, instruct, motivate, persuade, and share ideas). It also focuses on effective listening, using technology to communicate, and being able to evaluate the effectiveness of communication efforts—all within diverse contexts (adapted from P21). Note that working in partners is a great way to collaborate or build shared understanding but a critical part of communication is sharing with an authentic audience.
Example strategies that use technology to support communication in the classroom:
Host a TED-style conference or showcases for your students to present original ideas on a topic of interest to them to an authentic, external audience. Record and post the videos to a youtube stream.
Provide opportunities to listen and ask questions through backchannel tools like Today’s Meet or even Twitter.
Have your students publish their work through blogs, by creating websites, and by building other online resources that are shared with authentic audiences.
For other ideas see the resources below.
https://youtu.be/KUM4AECEcUA
The P21 framework emphasizes the effective use of oral, written, and nonverbal communication skills for multiple purposes (e.g., to inform, instruct, motivate, persuade, and share ideas). It also focuses on effective listening, using technology to communicate, and being able to evaluate the effectiveness of communication efforts—all within diverse contexts (adapted from P21). Note that working in partners is a great way to collaborate or build shared understanding but a critical part of communication is sharing with an authentic audience.
Example strategies that use technology to support communication in the classroom:
Host a TED-style conference or showcases for your students to present original ideas on a topic of interest to them to an authentic, external audience. Record and post the videos to a youtube stream.
Provide opportunities to listen and ask questions through backchannel tools like Today’s Meet or even Twitter.
Have your students publish their work through blogs, by creating websites, and by building other online resources that are shared with authentic audiences.
For other ideas see the resources below.
https://youtu.be/KUM4AECEcUA
Authored by: Friday Institute at NC State
Navigating Context
Posted on: #iteachmsu
![Article preview image]()
Contrary to popular belief, Lorem Ipsum is not simply random text. It has roots in a piece of classical Latin literature from 45 BC, making it over 2000 years
Posted by: Chathuri Super admin..
Navigating Context
Posted on: #iteachmsu
Host a TED-style conference or showcases for your students to present original ideas on a topic of interest to them to an authentic, external audience. Record and post the videos to a youtube stream. Ref:
Posted by: Chathuri Super admin..
Posted on: #iteachmsu
Dynamic time warping is an algorithm for measuring similarity between two sequences that may vary in time or speed. For instance, similarities in walking patterns would be detected, even if in one video the person was walking slowly and if in another he or she were walking more quickly, or even if there were accelerations and deceleration during the course of one observation. DTW has been applied to video, audio, and graphics – indeed, any data that can be turned into a linear representation can be analyzed with DTW.
Posted by: Rupali Jagtap
Assessing Learning
Posted on: #iteachmsu
The concept that computer programs can automatically learn from and adapt to new data without being assisted by humans. Deep learning techniques enable this automatic learning through the absorption of huge amounts of unstructured data such as text, images, or video.
Posted by: Rupali Jagtap
Assessing Learning
Posted on: #iteachmsu
Reinforcement Learning
Reinforcement learning is a subfield of machine learning in which systems are trained by receiving virtual "rewards" or "punishments," essentially learning by trial and error. Google's DeepMind has used reinforcement learning to beat a human champion in the Go games. Reinforcement learning is also used in video games to improve the gaming experience by providing smarter bot.
One of the most famous algorithms are:
Q-learning
Deep Q network
State-Action-Reward-State-Action (SARSA)
Deep Deterministic Policy Gradient (DDPG)
Reinforcement learning is a subfield of machine learning in which systems are trained by receiving virtual "rewards" or "punishments," essentially learning by trial and error. Google's DeepMind has used reinforcement learning to beat a human champion in the Go games. Reinforcement learning is also used in video games to improve the gaming experience by providing smarter bot.
One of the most famous algorithms are:
Q-learning
Deep Q network
State-Action-Reward-State-Action (SARSA)
Deep Deterministic Policy Gradient (DDPG)
Posted by: Chathuri Super admin..
Navigating Context
Posted on: #iteachmsu
Outdated Syllabus
Knowledge is becoming dynamic and changing quickly due to the era of internet. Things which are taught in the education institutions at the moment might become obsolete of outdated in no time. Here is a quick video about why Indian Education universities need to adopt dynamic syllabus with new technology.
Knowledge management and collaboration tools and features can help institutes to improve practical knowledge of the students. For example, practical conducted using Virtual Reality technology would become more useful to the students as it would create simulated three dimensional environments for the students to carry out their experiments. Therefore, many institutions are likely to adopt education technology in the coming years.
Thus, by the next year, the traditional methods of evaluation or assessment of the students which was based on theory knowledge will be switched to more practical-oriented methods of evaluation. This can be achieved can be with the help of introduction of technology in the education system.
https://www.youtube.com/watch?v=KrOx96FOSIU&ab_channel=MonikaBhowmik-SuccessCoach
https://www.youtube.com/watch?v=KrOx96FOSIU&ab_channel=MonikaBhowmik-SuccessCoach
Knowledge is becoming dynamic and changing quickly due to the era of internet. Things which are taught in the education institutions at the moment might become obsolete of outdated in no time. Here is a quick video about why Indian Education universities need to adopt dynamic syllabus with new technology.
Knowledge management and collaboration tools and features can help institutes to improve practical knowledge of the students. For example, practical conducted using Virtual Reality technology would become more useful to the students as it would create simulated three dimensional environments for the students to carry out their experiments. Therefore, many institutions are likely to adopt education technology in the coming years.
Thus, by the next year, the traditional methods of evaluation or assessment of the students which was based on theory knowledge will be switched to more practical-oriented methods of evaluation. This can be achieved can be with the help of introduction of technology in the education system.
https://www.youtube.com/watch?v=KrOx96FOSIU&ab_channel=MonikaBhowmik-SuccessCoach
https://www.youtube.com/watch?v=KrOx96FOSIU&ab_channel=MonikaBhowmik-SuccessCoach
Posted by: Chathuri Super admin..
Assessing Learning
Posted on: #iteachmsu
Digital Collaborative Learning for the 21st Century 2.0 (Learning Community for AY2023-2024)
https://www.youtube.com/watch?v=nMxqEkg3wQ0
This talk was a given at a local TEDx event, produced independently of the TED Conferences. Peter is a school principal with a radical solution, no school bell...
This talk was given at a local TEDx event, produced independently of the TED Conferences. Peter is a school principal with a radical solution, no school bell, no school levels, staff selection and curriculum is even decided by students. Result? No bullying, collaboration, innovation in school dynamics. Peter Hutton hated his own school experience, where he felt that education was being done “to him”. As Principal of Templestowe College he developed an educational model that allows students to individualize their education and share control in the running of the school. About TEDx, x = independently organized event In the spirit of ideas worth spreading, TEDx is a program of local, self-organized events that bring people together to share a TED-like experience. At a TEDx event, TEDTalks video and live speakers combine to spark deep discussion and connection in a small group. These local, self-organized events are branded TEDx, where x = independently organized TED event. The TED Conference provides general guidance for the TEDx program, but individual TEDx events are self-organized.* (*Subject to certain rules and regulations)
https://www.youtube.com/watch?v=nMxqEkg3wQ0
This talk was a given at a local TEDx event, produced independently of the TED Conferences. Peter is a school principal with a radical solution, no school bell...
This talk was given at a local TEDx event, produced independently of the TED Conferences. Peter is a school principal with a radical solution, no school bell, no school levels, staff selection and curriculum is even decided by students. Result? No bullying, collaboration, innovation in school dynamics. Peter Hutton hated his own school experience, where he felt that education was being done “to him”. As Principal of Templestowe College he developed an educational model that allows students to individualize their education and share control in the running of the school. About TEDx, x = independently organized event In the spirit of ideas worth spreading, TEDx is a program of local, self-organized events that bring people together to share a TED-like experience. At a TEDx event, TEDTalks video and live speakers combine to spark deep discussion and connection in a small group. These local, self-organized events are branded TEDx, where x = independently organized TED event. The TED Conference provides general guidance for the TEDx program, but individual TEDx events are self-organized.* (*Subject to certain rules and regulations)
Posted by: Chathuri Super admin..
Assessing Learning
Host: MSU Libraries
MSU Family Weekend: Game Labs Open House
For MSU Family Weekend, stop by the Libraries' game labs for some down-time fun. The Gerald M Kline Digital and Multimedia Center (Main Library 4 West) is home to game labs for study and recreation alike! Console games from our collection or yours may be played by individuals or groups in our fully equipped video game labs.
For parking information visit http://maps.msu.edu/interactive.
If you have questions about accessibility or need to request accommodations, please email lib.dl.accessibility@msu.edu.
Navigating Context
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
Host: MSU Libraries
MSU Family Weekend: Game Labs Open House
For MSU Family Weekend, stop by the Libraries' game labs for some down-time fun. The Gerald M Kline Digital and Multimedia Center (Main Library 4 West) is home to game labs for study and recreation alike! Console games from our collection or yours may be played by individuals or groups in our fully equipped video game labs.
For parking information visit http://maps.msu.edu/interactive.
If you have questions about accessibility or need to request accommodations, please email lib.dl.accessibility@msu.edu.
Navigating Context
EXPIRED
Host: MSU Libraries
Artist Talk: “Where the Light Gets In” - Engaging the Community About Tree Removals on Campus
Artist and researcher Hailey Becker (Art, Art History and Design and Forestry) will give a brief talk about her series of art installations marking the removal of trees on campus with beams of light and recount her journey to display and document the work in the Digital Scholarship Lab (DSL), including a short 360 video and an interactive campus tour of the installations. After the talk and opportunity to view the work in the DSL, the artist will take attendees on the interactive campus tour to see how areas of campus have changed over time and how these changes affect our sense of place and relationship to the environment. Light refreshments will be provided.
Navigating Context
EXPIRED