Audience: General; Subject: Schools. (2018) See two large garden programs of the Hawaii Department of Education. First, Waikiki Elementary School's Mindful School Garden. Started on Earth Day over10 years ago, the fruit trees and farm plants are still going strong with help from students, parents, and community. Second, Makaha Elementary School's partnership with neighboring farm Hoa 'Aina O Makaha. Interviews with school garden teachers and staff.
Teacher Greg Harding of Waimea H.S. on Kauai instills in his students aloha aina, the love of the land; take care of the land, and the land will take care of you. With the support of Principal Mahina Anguay, Mr. Harding, a natural resource teacher, and his students created Aloha Garden & Farm on the campus of Waimea H.S. It is here where students learn the principles and actions of farming and sustainability and make the practice of aloha aina a reality.
Audience: Students; Grades: K-5 Subject: Science.(1999) Explores the abundance of life in the tropical rain forest. Explains how the symbiotic relationships between plants and animals inhabiting rain forests balance the ecosystem. Discusses how deforestation causes global warming and discusses the importance of protecting the rain forests of the world.
Audience: Students; Grades: K-5; Subject: Science. (2008) This program introduces students to the general characteristics of rocks and discusses the components of rock classification. On-location footage from throughout North America vividly depicts characteristics and origins of the three major rock types: igneous rocks, sedimentary rocks, and metamorphic rocks. Important terminology includes: geologist, texture, grains, mineral composition, lava, magma, sediment, and compaction. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLfSXJ1dlBoTzJyUm8&usp=sharing
Audience: Students; Grades: 4-8; Subject Areas: Science. (2005) Introduces basic laboratory safety practices for working with science activities. Illustrates how to prevent accidents, dress for safety, use protective eyewear, and deal with common problems that occur in a science lab. Demonstrates the safe handling of materials, chemicals, glassware, sharp instruments and heat sources and highlights the safety devices found in a laboratory. Program concludes with a ten-question video quiz. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLffjlab3dVc05DdmV5RE9MSjdtd195YUFFdXRGenRIWnpaUkNvSmtKMlh2Mmc&usp=sharing
Audience: Students; Grades: 4-8; Subject Areas: Science. (2005) Explains the importance of measurement and identifies both standard and metric units of measure. Uses a variety of examples to illustrate the measurement of length, mass, and volume. Demonstrates the use of common measuring instruments such as rulers, balances, and cylinders and explains how to use metric conversion tables. Also describes how a thermometer is used to measure temperature and introduces the Celsius scale. Program concludes with a 10-question video quiz. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLffjlab3dVc05DdmV5RE9MSjdtd195YUFFdXRGenRIWnpaUkNvSmtKMlh2Mmc&usp=sharing
Audience: Students; Grades: 4-8; Subject Areas: Science. (2005) Explains the scientific method and illustrates how to follow this method when creating a science fair project. Identifies the steps involved in scientific methodology from formulating a question to gathering data and determining conclusion. Presents suggestions on how to create a successful science project, including the use of charts and graphs to display data. Includes examples of actual science fair projects. Program concludes with a 10-question video quiz. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLffjlab3dVc05DdmV5RE9MSjdtd195YUFFdXRGenRIWnpaUkNvSmtKMlh2Mmc&usp=sharing
Audience: Students; Grades: 4-8; Subject Areas: Science. (2005) Explores the concept of scientific observation and explains how the senses are used to make observations. Highlights various methods of observation and explains how to record them in the form of data. Compares quantitative and qualitative observations and illustrates how the collected data is recorded, organized and displayed using graphic methods. Identifies several types of graphs and charts used to analyze and record scientific data. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLffjlab3dVc05DdmV5RE9MSjdtd195YUFFdXRGenRIWnpaUkNvSmtKMlh2Mmc&usp=sharing
Audience: Students; Grades: K-3; Subject Areas: Science. (2014) A key component of answering questions and solving problems is to conduct investigations. In easy-to-understand language, this video describes what investigations are and why they are important. Special emphasis is placed on demonstrating the nature of data.
Audience: General; Subject: Local business. (2017) Go behind the scenes of Kahuku Farms in this episode of GROW. Interviews with Kahuku Farms operators Kylie Matsuda-Lum and Judah Lum. See how local Hawaii farms have to work with federal, state, and county offices while providing goods and services. Also, find out more about Hawaii's local agriculture sector from interviews with Hawaii's Department of Agriculture's Scott Enright and University of Hawaii's Steven Chiang from the Agribusiness Incubator Program and GoFarm Hawaii.
A sampling of various Geometry Camp lessons that provide students with hands-on, inquiry-based learning to expose them to geometric concepts. Students are given the opportunity to practice basic concepts and functions of geometry with real world applications. Concepts introduced in Geometry Camp include the Pythagorean Theorem, shapes, patterns, area, and perimenter. General learner outcomes are embedded in this non-threatening, fun learning process.
Audience: Students; Grades: K-3; Subject: Math. (2005) Dr. Rock introduces the principles of addition as he prepares for a birthday party. Animated graphics are used to illustrate adding one-digit whole numbers, including sums equal to ten. Children are shown adding different objects and the mathematical symbols used in addition sentences are identified along with related facts for solving problems.
Audience: Students; Grades: K-3; Subject: Math. (2005) Dr. Rock explains the value of money and demonstrates the basic principles of counting money. He identifies the number of cents in a penny, nickel, dime, quarter, and dollar bill. Students learn how to combine coins to make a certain value and Dr. Rock illustrates the symbols associated with money, such as the dollar sign and decimal point.
Audience: Students; Grades: K-3; Subject: Math. (2005) Dr. Rock explains what fractions are and how they are applied. He uses pieces of fruit to illustrate how fractions are part of a whole. Children are shown using fraction wheels and animated graphics illustrate how fractions represent part of a whole number.
Audience: Students; Grades: 4-12; Subject Areas: Science. (2008) Program 4, From the Mayan ruins to Jamestown, Virginia, currrent NASA technologies are helping archaeologists uncover exciting artifacts. NASA catscan technology helps dissect a 10 million year old dinosaur named Dakota. And the Lewis and Clark trail is uncovered from space using remote sensing technologies.
Audience: Students; Grades: 4-12; Subject Areas: Science. (2009) Our latest NASA 360 program is all about the mind body connection. We take a deeper look at how machines are being used to help make our lives better. In this episode we show how biofeedback training is helping kids with ADHD, how astronauts use 3-d to train here on Earth before going into space, how technology is being use to help people with injuries back here on Earth, plus lots more.
Audience: Students; Grades: K-3; Subject Areas: Science. (2011) Live-action weather footage helps students learn how they can observe the weather. Concepts and terminology: temperature, air pressure, weather systems, precipitation, and wind.
Audience: Students; Grades: 4-12; Subject Areas: Sustainability, STEM. (2018) In this episode: Saving indigenous languages, bone implants, triceratops gets a cousin, saving the bay, the science of speed and much more!
Audience: Students; Grades: 4-8; Subject: Science. (2005) Explains the basic units of heredity by exploring the history and science of genetics. Introduces Gregor Mendel and Mendel's law, describing his genetic experiments with plants. Identifies the role of genes in determining inherited traits that are passed on to offspring. Discusses cross-breeding, pollination, and variation biology, and describes dominant and recessive traits. Program concludes with a ten-question video quiz. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLfTnVVYkRjRXAxVUk&usp=sharing
Audience: Students; Grades: 4-8; Subject: Science. (2005) Explains the basic science of genetics and examines its relationship to inherited traits. Reviews the plant experiments performed by Gregor Mendel which resulted in an understanding of heredity. Describes the role of dominant and recessive genes in determining which traits are passed on from parent to offspring. Also defines genotypes, alleles, Punnett Squares, and hybrids, and explains how genetic probabilities are calculated. Program concludes with a ten-question video quiz. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLfTnVVYkRjRXAxVUk&usp=sharing
Audience: Students; Grades: 4-8; Subject: Science. (2005) Explains the genetic factors that determine inherited traits in plants, animals, and humans. Reviews the research of Gregor Mendel relative to plant genetics. Explains the results of his experiments with pea pods to illustrate the law of segregation and explain the genetic aspects of reproduction. Discusses the law of independent assortment, gene dominance, mutation biology and genetic disorders. Also highlights the scientific discoveries of Carl Correns and Hugo de Vries. Program concludes with a ten-question video quiz. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLfTnVVYkRjRXAxVUk&usp=sharing
Audience: Students; Grades: 4-8; Subject: Science. (2005) Examines how the study of genetics impacts society. Reviews the history of genetic research, citing the heredity theories of Mendel, Boveri, and Sutton. Also identifies the scientists whose continued research of inherited traits led to the identification of chromosomes and the discovery of the DNA molecule. Illustrates the molecular structure of DNA and explains genetic code, selective breeding, human genome mapping, and genetic recombination. Also discusses the moral and ethical aspects of genetic engineering. Program concludes with a ten-question video quiz. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLfTnVVYkRjRXAxVUk&usp=sharing
Audience: Students; Grades:4-5; Subject: Science. (2013) This fascinating program helps students understand the basics of heredity. Acquired traits and inherited traits are defined and contrasted. Special emphasis is placed on some easy to understand human traits that are inherited. Concepts and terminology: characteristics, traits, and inheritance. For Guide go to: https://drive.google.com/drive/folders/0B9ZT7PYcIjLfMlZJSUdySHdVNWM?usp=sharing
Audience: Students; Grades: 4-5; Subject Areas: Science. (2006) Explores the genetic principles associated with heredity. Identifies the difference between physical and acquired traits and explains the role of genes in determining inherited traits. Introduces Gregor Mendel and his genetic experiments with plants and defines dominant and recessive traits, chromosomes, DNA, and genetic engineering. Program concludes with a five-question video quiz. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLfRkJtTHMzTEJTYkk&usp=sharing
Audience: Students; Grades: 6-12; Subject Areas: Science. (2014) Designing Life. Man has been doing it for over 10,000 years. You may not be aware of it, but we are surrounded by "Superlife," life-forms manipulated by Man. Superlife looks at the stories of how these super organisms came to permeate our planet, and how the latest science is pushing the boundaries to create more with less time and resources and at a higher quality. Note- Superlife explores the science of how mankind is manipulating life for its benefit. The series does not attempt to address the concerns surrounding cloning, genetically modified organisms or the ethics of certain farming practices.
Audience: Students; Grades: 6-12; Subject Areas: Science. (2014) Designing Life. Man has been doing it for over 10,000 years. You may not be aware of it, but we are surrounded by "Superlife," life-forms manipulated by Man. Superlife looks at the stories of how these super organisms came to permeate our planet, and how the latest science is pushing the boundaries to create more with less time and resources and at a higher quality. Note- Superlife explores the science of how mankind is manipulating life for its benefit. The series does not attempt to address the concerns surrounding cloning, genetically modified organisms or the ethics of certain farming practices.
Audience: Students; Grades: 9-12; Subject: STEM. (2015) Seeds: Genetic Engineering In the past, overpopulation and food-shortage issues have plagued humanity. Today, cross-breeding and genetic modification of plants has played a significant role in allowing the human population to expand to the staggering extent that we are witnessing today and may be able to overcome the imposing threat of food shortages.
Audience: Students; Grades: 6-12; Subject Areas: Science. (2014) Designing Life. Man has been doing it for over 10,000 years. You may not be aware of it, but we are surrounded by "Superlife," life-forms manipulated by Man. Superlife looks at the stories of how these super organisms came to permeate our planet, and how the latest science is pushing the boundaries to create more with less time and resources and at a higher quality. Note- Superlife explores the science of how mankind is manipulating life for its benefit. The series does not attempt to address the concerns surrounding cloning, genetically modified organisms or the ethics of certain farming practices.
A major part of cooking involves delivering heat energy to natural things and transforming them to the state where they can be digested and absorbed. This technique does not stop at simply making food taste good. Professor Wrangham of Harvard University says the ability to produce food through heat is what helped humans evolve.
"Power" is about how to change ingredients using physical force. In terms of preserving, texture, convenience, and nutrient intake, this revolutionary cooking method provided the foundation for cultural development
Fermentation is an advanced cooking method of using microorganisms' life activities to cook food, and it can synthesize new components and remove toxicity from food. But because it uses microorganisms, it is a unique cooking method that causes both aversion and preference.
This episode covers the five taste receptors which are sweet, salty, spicy, bitter, and sour. "Why is sugar sweet?" is the wrong question. "Why does sugar taste sweet to us?" is the right question. Taste doesn't exist in things. It is something our brains create. It is a type of antenna that mankind has developed for survival. It is the ability to consume nutrients and avoid poison.
Audience: Students; Grades: 4-8; Subject Areas: Health. (2007) Stresses the fundamental skills needed to plan, select, and prepare foods that make up a healthy diet. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLffkk2N3JQSHZRdmJEWnNGcTY0TnF1VFpjRkRsYzl2cFgwVk1iXzZQUXBmT0U&usp=sharing
Audience: Students; Grades: 4-12; Subject: Career/Life Skills. For high school students, discussions about ethics would typically center on issues like cheating on a test or plagiarism, but, in this four-part series (15 minutes each), the discussion focuses on how ethics affect careers and the workplace. Filmed in a high school government class, students discuss ethical behavior in the arenas of business, government, and science as a way to foster deeper thinking about the ethical dimensions of their life and our society. Students voice their opinions, concerns, and questions about ethical issues, the roles that these issues play in our society, and the affect on potential careers. Part 1: Ethics in Bioresearch; Ethics in Government High school students discuss stem cell research and the Patriot Act.
Audience: Students; Grades: 4-12; Subject: Career/Life Skills. For high school students, discussions about ethics would typically center on issues like cheating on a test or plagiarism, but, in this four-part series (15 minutes each), the discussion focuses on how ethics affect careers and the workplace. Filmed in a high school government class, students discuss ethical behavior in the arenas of business, government, and science as a way to foster deeper thinking about the ethical dimensions of their life and our society. Students voice their opinions, concerns, and questions about ethical issues, the roles that these issues play in our society, and the affect on potential careers. Part 2: Ethics in Cyber-Technology; Ethics in the Media High school students discuss the integrity of cyber-technology and media?s responsibility to citizens.
In the 19th century, America was divided by the Appalachian Mountains allowing the East and West to develop independent of each other, NY Governor DeWitt Clinton proposed building the Erie Canal helping to connect the country while also fueling its growth. He turned to the bankers on Wall Street for help. Shortly thereafter the issuance of bonds by Wall Street would help to build the nations railroads. The bankers on Wall Street even helped the North win the Civil War by providing a steady flow of money. Wall Street was a major contributor to the growth of America.
NASDAQ founded in 1971 made it possible for young, high risk companies to go public creating a role for venture capitalists. Early venture capitalists included Queen Isabella of Spain who funded Christopher Columbus' voyage to the new world and banker JP Morgan who funded Thomas Edison and the electric light. On the NASDAQ, high risk ventures in Silicon Valley could be shared with investors on main street accelerating America's growth.
Audience: Students; Grades: 9-12; Subject: Business. (2015) Inc. Business Advisor provides "best practice" management information for entrepreneurs to help create and build their business. Inc. draws upon more than thirty years of experience with the most successful, innovative entrepreneurs in the world. More than thirty in depth tutorials on writing a business plan, creating a marketing strategy, managing people, and more provide actionable solutions. DVD extras include how-to guides, related articles and other business tools. Marketing & Sales Part I - Marketing Strategies - Online Marketing - Public Relations- The Media And Other Tools - Brand Building For documents go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLfVmhPeDltMk5xZHM&usp=drive_web
Audience: Students; Grades: 9-12; Subject: Business. (2015) Inc. Business Advisor provides "best practice" management information for entrepreneurs to help create and build their business. Inc. draws upon more than thirty years of experience with the most successful, innovative entrepreneurs in the world. More than thirty in depth tutorials on writing a business plan, creating a marketing strategy, managing people, and more provide actionable solutions. DVD extras include how-to guides, related articles and other business tools. Marketing & Sales Part II - Small Business Sales Techniques - Networking Tools and Venues - Using The Competition To Your Advantage For documents go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLfc2s5Sm04QXhFODA&usp=sharing
Audience: Students; Grades: K-3; Subject: Language Arts, Fine Arts. (2007) An artist using cutouts, illustrates a story about an orphan whose Godfather is Death itself. Ambrose, the orphan grows up to be the best doctor in the country, because he is aided in his diagnoses by Death. If the patient is to recover Death stands at the head of the patient's bed but if the patient is to die, he stands at the foot of the bed. One day Dr. Ambrose is summoned by the King to cure his ill daughter Camilla. Dr. Ambrose and Camilla fall in love at first sight and when he sees death stand at the foot of the bed, he turns the bed around in a flash. Dr. Ambrose's dirty trick on Death changes the patient's fate and outrages Death. The doctor loses all his powers, but Princess Camilla recovers. Soon after, they marry and live happily ever after because Ambrose no longer has Death for a Godfather.
Audience: Students; Grades: 9-12; Subject Areas: Career/Life Skills. (2019) We're going to start the show with our new host, Helena. She'll meet an award winning pet groomer and learn how she transforms dirty dogs into beautifully groomed pooches. Then we're going to get to know Helena as she sits down to chat with Shawn for a few minutes. I think you'll love her as much as we do! Finally, Shawn will meet up with a neighborhood pharmacist and learn that her skills include a lot more than knowledge of the drugs she dispenses.
Audience: Students; Grades: 9-12; Subject Areas: Career/Life Skills. (2019) Shawn will visit a TV station where he meets with a meteorologist and learns how he predicts the weather so people can plan for the day and week ahead. Last week, Shawn got to chat with our new host, Helena. Today, we'll turn the tables as Helena talks to Shawn and finds out what makes him tick! Do you love cooking and making up your own recipes? If so, stay tuned because Shawn is going to talk with a catering chef and learn how he keeps developing his yummy new creations!
Audience: Students; Grades: 9-12; Subject Areas: Career/Life Skills. (2019) Helena will talk with a public relations specialist whose company has the important job of keeping her city informed on traffic and road conditions ... especially as they undergo the biggest infrastructure project in America! In addition to being updated on traffic conditions, we also need to know how to get places. Shawn will meet a cartographer who will share with us how his career in mapmaking has evolved over the years. Then Helena will take us back in time to the middle ages and visit a man who cares for and trains the horses at a popular dinner theatre. Sounds like a fun job!
Audience: Students; Grades: 4-12; Subject Areas: Sustainability, STEM. (2018) In this episode: Saving indigenous languages, bone implants, triceratops gets a cousin, saving the bay, the science of speed and much more!
Audience: Students; Grades: 4-8; Subject: Science. (2005) Explains the basic units of heredity by exploring the history and science of genetics. Introduces Gregor Mendel and Mendel's law, describing his genetic experiments with plants. Identifies the role of genes in determining inherited traits that are passed on to offspring. Discusses cross-breeding, pollination, and variation biology, and describes dominant and recessive traits. Program concludes with a ten-question video quiz. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLfTnVVYkRjRXAxVUk&usp=sharing
Audience: Students; Grades: 4-8; Subject: Science. (2005) Explains the basic science of genetics and examines its relationship to inherited traits. Reviews the plant experiments performed by Gregor Mendel which resulted in an understanding of heredity. Describes the role of dominant and recessive genes in determining which traits are passed on from parent to offspring. Also defines genotypes, alleles, Punnett Squares, and hybrids, and explains how genetic probabilities are calculated. Program concludes with a ten-question video quiz. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLfTnVVYkRjRXAxVUk&usp=sharing
Audience: Students; Grades: 4-8; Subject: Science. (2005) Explains the genetic factors that determine inherited traits in plants, animals, and humans. Reviews the research of Gregor Mendel relative to plant genetics. Explains the results of his experiments with pea pods to illustrate the law of segregation and explain the genetic aspects of reproduction. Discusses the law of independent assortment, gene dominance, mutation biology and genetic disorders. Also highlights the scientific discoveries of Carl Correns and Hugo de Vries. Program concludes with a ten-question video quiz. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLfTnVVYkRjRXAxVUk&usp=sharing
Audience: Students; Grades: 4-8; Subject: Science. (2005) Examines how the study of genetics impacts society. Reviews the history of genetic research, citing the heredity theories of Mendel, Boveri, and Sutton. Also identifies the scientists whose continued research of inherited traits led to the identification of chromosomes and the discovery of the DNA molecule. Illustrates the molecular structure of DNA and explains genetic code, selective breeding, human genome mapping, and genetic recombination. Also discusses the moral and ethical aspects of genetic engineering. Program concludes with a ten-question video quiz. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLfTnVVYkRjRXAxVUk&usp=sharing
Audience: Students; Grades:4-5; Subject: Science. (2013) This fascinating program helps students understand the basics of heredity. Acquired traits and inherited traits are defined and contrasted. Special emphasis is placed on some easy to understand human traits that are inherited. Concepts and terminology: characteristics, traits, and inheritance. For Guide go to: https://drive.google.com/drive/folders/0B9ZT7PYcIjLfMlZJSUdySHdVNWM?usp=sharing
Audience: Students; Grades: 4-5; Subject Areas: Science. (2006) Explores the genetic principles associated with heredity. Identifies the difference between physical and acquired traits and explains the role of genes in determining inherited traits. Introduces Gregor Mendel and his genetic experiments with plants and defines dominant and recessive traits, chromosomes, DNA, and genetic engineering. Program concludes with a five-question video quiz. For the teacher's guide go to: https://drive.google.com/folderview?id=0B9ZT7PYcIjLfRkJtTHMzTEJTYkk&usp=sharing
Audience: Students; Grades: 6-12; Subject Areas: Science. (2014) Designing Life. Man has been doing it for over 10,000 years. You may not be aware of it, but we are surrounded by "Superlife," life-forms manipulated by Man. Superlife looks at the stories of how these super organisms came to permeate our planet, and how the latest science is pushing the boundaries to create more with less time and resources and at a higher quality. Note- Superlife explores the science of how mankind is manipulating life for its benefit. The series does not attempt to address the concerns surrounding cloning, genetically modified organisms or the ethics of certain farming practices.
Audience: Students; Grades: 6-12; Subject Areas: Science. (2014) Designing Life. Man has been doing it for over 10,000 years. You may not be aware of it, but we are surrounded by "Superlife," life-forms manipulated by Man. Superlife looks at the stories of how these super organisms came to permeate our planet, and how the latest science is pushing the boundaries to create more with less time and resources and at a higher quality. Note- Superlife explores the science of how mankind is manipulating life for its benefit. The series does not attempt to address the concerns surrounding cloning, genetically modified organisms or the ethics of certain farming practices.
Audience: Students; Grades: 9-12; Subject: STEM. (2015) Seeds: Genetic Engineering In the past, overpopulation and food-shortage issues have plagued humanity. Today, cross-breeding and genetic modification of plants has played a significant role in allowing the human population to expand to the staggering extent that we are witnessing today and may be able to overcome the imposing threat of food shortages.
Audience: Students; Grades: 6-12; Subject Areas: Science. (2014) Designing Life. Man has been doing it for over 10,000 years. You may not be aware of it, but we are surrounded by "Superlife," life-forms manipulated by Man. Superlife looks at the stories of how these super organisms came to permeate our planet, and how the latest science is pushing the boundaries to create more with less time and resources and at a higher quality. Note- Superlife explores the science of how mankind is manipulating life for its benefit. The series does not attempt to address the concerns surrounding cloning, genetically modified organisms or the ethics of certain farming practices.