The document discusses nanotechnology and its applications. Specifically, it defines nanotechnology as the study and control of matter at the atomic and molecular scale, between 1 to 100 nanometers. It then provides examples of how nanotechnology is already being used to make today's products lighter, stronger, faster, smaller and more durable. The document also lists several fields where nanotechnology can be applied, such as information technology, biotechnology, medicine/health, and energy/environment. It concludes by outlining potential future applications of nanotechnology in areas like microprocessors, energy storage, and molecular circuitry.
Nanotechnology is a newly initial field in recent decades on a commercial scale, in the same time increasing pollution rates in various agricultural products is a serious problem need quickly solving to increase exporting our agriculture products,
Nano materials promise many stimulating changes to enhance different crop production and fruit quality.
DuPont Advisory Committee on Agricultural Innovation and Productivity published The Role of Technology in Agriculture in 2013. The report focuses on meeting global food demand through science-based innovation that reaches farmers around the world.
The document discusses several modern agricultural technologies used in the 21st century including combine harvesters, agricultural robot suits, cultivators, pivot irrigation systems, tillage systems, and LED lighting technologies. It provides details on how each technology functions and the benefits they provide farmers for tasks like harvesting, weeding, irrigation, and plant growth. A variety of other technologies are also listed at the end related to soil cultivation, planting, fertilizing, pest control, and harvesting.
this is about the application of nanotechnology in agriculture. that how we can secure the growth of plants and crops and make our crops better. in this ppt the use of nano-particles has discussed to avoid different pests and diseases by ruining the crops.
Application of nanotechnology in agricultureAmit Bishnoi
This document discusses the potential applications of nanotechnology in agriculture. It notes that nanotechnology could help address challenges facing agriculture like low crop yields, nutrient deficiencies, and climate change. Some potential applications mentioned include nano-sensors to monitor soil and plant health, nano-fertilizers for slow nutrient release, nano-pesticides and insecticides, and nano-materials to remove soil contaminants. The document provides background on nanotechnology and discusses various types of nano-materials and their properties. It outlines how nanotechnology is being researched and applied in areas like precision farming, food science, crop improvement, and soil remediation to enhance agricultural productivity in a sustainable manner.
This document discusses the potential for innovation and technology in agriculture, including precision agriculture tools, farm management software, and sensors that can help small farmers. It notes entrepreneurs are developing technologies using radio frequency, the Internet of Things, and big data to improve farming. These include clean technologies using ambient energy, waste-to-energy, and renewable sources.
"Nanotechnology in agriculture and Food technology" By MOHD. HASHIM KHANMohd. Hashim Khan
Nanotechnology can be applied in six main areas of agriculture and food technology: 1) pathogen and contaminant detection, 2) tracking crops and products, 3) nanoscience in molecular and cell biology, 4) nanoscale materials science and engineering, 5) addressing environmental issues and agricultural waste, and 6) educating the public and future workforce. Some potential applications include sensors to detect foodborne pathogens, nanotags to trace the origin of agricultural products, nanoparticles to fortify foods with increased nutrients, and nanocatalysts to make pesticides and herbicides more effective with lower doses. Overall, the speaker outlines how nanotechnology has the potential to improve food safety and quality, sustainability, and public understanding of emerging
The document discusses nanotechnology and its applications. Specifically, it defines nanotechnology as the study and control of matter at the atomic and molecular scale, between 1 to 100 nanometers. It then provides examples of how nanotechnology is already being used to make today's products lighter, stronger, faster, smaller and more durable. The document also lists several fields where nanotechnology can be applied, such as information technology, biotechnology, medicine/health, and energy/environment. It concludes by outlining potential future applications of nanotechnology in areas like microprocessors, energy storage, and molecular circuitry.
Nanotechnology is a newly initial field in recent decades on a commercial scale, in the same time increasing pollution rates in various agricultural products is a serious problem need quickly solving to increase exporting our agriculture products,
Nano materials promise many stimulating changes to enhance different crop production and fruit quality.
DuPont Advisory Committee on Agricultural Innovation and Productivity published The Role of Technology in Agriculture in 2013. The report focuses on meeting global food demand through science-based innovation that reaches farmers around the world.
The document discusses several modern agricultural technologies used in the 21st century including combine harvesters, agricultural robot suits, cultivators, pivot irrigation systems, tillage systems, and LED lighting technologies. It provides details on how each technology functions and the benefits they provide farmers for tasks like harvesting, weeding, irrigation, and plant growth. A variety of other technologies are also listed at the end related to soil cultivation, planting, fertilizing, pest control, and harvesting.
this is about the application of nanotechnology in agriculture. that how we can secure the growth of plants and crops and make our crops better. in this ppt the use of nano-particles has discussed to avoid different pests and diseases by ruining the crops.
Application of nanotechnology in agricultureAmit Bishnoi
This document discusses the potential applications of nanotechnology in agriculture. It notes that nanotechnology could help address challenges facing agriculture like low crop yields, nutrient deficiencies, and climate change. Some potential applications mentioned include nano-sensors to monitor soil and plant health, nano-fertilizers for slow nutrient release, nano-pesticides and insecticides, and nano-materials to remove soil contaminants. The document provides background on nanotechnology and discusses various types of nano-materials and their properties. It outlines how nanotechnology is being researched and applied in areas like precision farming, food science, crop improvement, and soil remediation to enhance agricultural productivity in a sustainable manner.
This document discusses the potential for innovation and technology in agriculture, including precision agriculture tools, farm management software, and sensors that can help small farmers. It notes entrepreneurs are developing technologies using radio frequency, the Internet of Things, and big data to improve farming. These include clean technologies using ambient energy, waste-to-energy, and renewable sources.
"Nanotechnology in agriculture and Food technology" By MOHD. HASHIM KHANMohd. Hashim Khan
Nanotechnology can be applied in six main areas of agriculture and food technology: 1) pathogen and contaminant detection, 2) tracking crops and products, 3) nanoscience in molecular and cell biology, 4) nanoscale materials science and engineering, 5) addressing environmental issues and agricultural waste, and 6) educating the public and future workforce. Some potential applications include sensors to detect foodborne pathogens, nanotags to trace the origin of agricultural products, nanoparticles to fortify foods with increased nutrients, and nanocatalysts to make pesticides and herbicides more effective with lower doses. Overall, the speaker outlines how nanotechnology has the potential to improve food safety and quality, sustainability, and public understanding of emerging
Nanomaterials have potential applications in plant protection and agriculture. They can be engineered to have properties like permeability and biodegradability that increase their affinity to targets like pests and pathogens. Nanopesticides and nanofertilizers allow slow release and targeted delivery of agricultural chemicals, reducing usage amounts. However, some negative effects like toxicity, chemical injuries to plants, and health risks must still be addressed through further research. Overall, nanotechnology shows promise for more effective and sustainable crop protection and production if its risks can be properly managed.
Role of nanotechnology in insect pest managementbajaru
Nanotechnology is an emerging area in the field of agriculture. Nanopesticides and nanofungicides will give 100% better results when compared with the normal chemicals.
Application of Nanotechnology in Agriculture with special reference to Pest M...Ramesh Kulkarni
Nanotechnology, a promising field of research opens up in the present decade a wide array of
opportunities in the present decade and is expected to give major impulses to technical innovations in
a variety of industrial sectors in the future.
1. Agriculture involves growing crops, fruits, and vegetables to earn a livelihood. The land used for growing crops is called arable land, and important inputs include seeds, fertilizers, machinery, and labor.
2. There are different types of farming including subsistence farming, which is done to meet the family's needs using low technology and household labor on small plots. Subsistence farming can be intensive or primitive.
3. Other types are shifting cultivation practiced in forested areas, nomadic herding in dry regions, and commercial farming including grain, mixed, and plantation agriculture. Major crops grown globally include rice, wheat, and cotton to meet population demands.
Nanotechnology involves manipulating matter at the nanoscale, which is approximately 1 to 100 nanometers. It has applications in many areas such as medicine, energy, and computing. Some advantages of nanotechnology include materials that are stronger, lighter, cheaper, and more precise. However, there are also concerns about potential negative health effects and how nanotechnology could enable new types of weapons.
The document discusses different types of agriculture practiced in India. It describes primitive subsistence farming, intensive subsistence farming, commercial farming, and plantation farming. It also discusses major crops grown in India like rice, millets, cotton, and coffee. Agricultural development aims to increase farm production to meet population growth through expanding cropped area, irrigation, use of fertilizers and high-yielding seeds, and farm mechanization. The ultimate goal is increased food security. Farming in India has a long history and India ranks second worldwide in agricultural output. In the US, agriculture is a major industry and the country exports food, with over 2 million farms covering over 900 million acres.
Nanomaterials have potential applications in plant protection and agriculture. They can be engineered to have properties like permeability and biodegradability that increase their affinity to targets like pests and pathogens. Nanopesticides and nanofertilizers allow slow release and targeted delivery of agricultural chemicals, reducing usage amounts. However, some negative effects like toxicity, chemical injuries to plants, and health risks must still be addressed through further research. Overall, nanotechnology shows promise for more effective and sustainable crop protection and production if its risks can be properly managed.
Role of nanotechnology in insect pest managementbajaru
Nanotechnology is an emerging area in the field of agriculture. Nanopesticides and nanofungicides will give 100% better results when compared with the normal chemicals.
Application of Nanotechnology in Agriculture with special reference to Pest M...Ramesh Kulkarni
Nanotechnology, a promising field of research opens up in the present decade a wide array of
opportunities in the present decade and is expected to give major impulses to technical innovations in
a variety of industrial sectors in the future.
1. Agriculture involves growing crops, fruits, and vegetables to earn a livelihood. The land used for growing crops is called arable land, and important inputs include seeds, fertilizers, machinery, and labor.
2. There are different types of farming including subsistence farming, which is done to meet the family's needs using low technology and household labor on small plots. Subsistence farming can be intensive or primitive.
3. Other types are shifting cultivation practiced in forested areas, nomadic herding in dry regions, and commercial farming including grain, mixed, and plantation agriculture. Major crops grown globally include rice, wheat, and cotton to meet population demands.
Nanotechnology involves manipulating matter at the nanoscale, which is approximately 1 to 100 nanometers. It has applications in many areas such as medicine, energy, and computing. Some advantages of nanotechnology include materials that are stronger, lighter, cheaper, and more precise. However, there are also concerns about potential negative health effects and how nanotechnology could enable new types of weapons.
The document discusses different types of agriculture practiced in India. It describes primitive subsistence farming, intensive subsistence farming, commercial farming, and plantation farming. It also discusses major crops grown in India like rice, millets, cotton, and coffee. Agricultural development aims to increase farm production to meet population growth through expanding cropped area, irrigation, use of fertilizers and high-yielding seeds, and farm mechanization. The ultimate goal is increased food security. Farming in India has a long history and India ranks second worldwide in agricultural output. In the US, agriculture is a major industry and the country exports food, with over 2 million farms covering over 900 million acres.
публичность педагога как требование современного образования
Детский телефон доверия
1. ТЕЛЕФОН ДОВЕРИЯ
СЛУЖБА ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ
ПО ТЕЛЕФОНУ
8-495-624-60-01
8-800-200-01-22
Московский городской психолого-педагогический университет
Центр экстренной психологической помощи
2. ИСТОРИЯ ТЕЛЕФОНА ДОВЕРИЯ
Первый Телефон Доверия начал работать в
Лондоне в 1953 г. Основал его пастор Чад
Варга, предложив обращаться на его личный
телефон людям в сложных для них ситуациях.
Главное, что он понял: все звонившие хотели
быть услышанными, нуждались в дружеской
поддержке.
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
3. ДЕТСКИЙ ТЕЛЕФОН ДОВЕРИЯ
Цель деятельности ДТД –
оказание экстренной
психологической помощи
детям, подросткам,
родителям, а также
специалистам, деятельность
которых связана с обучением и
воспитанием детей.
Свыше 35000 обращений поступило за 2014 г. Из
них свыше 15000 звонков поступило от детей и
подростков.
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
4. НАЦИОНАЛЬНАЯ СТРАТЕГИЯ ДЕЙСТВИЙ В
ИНТЕРЕСАХ ДЕТЕЙ НА 2012 - 2017 ГОДЫ
Правительство РФ считает вопросы семьи,
воспитания подрастающего поколения и защиты
детства приоритетным направлением своей
деятельности.
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
5. ДЕТСКИЙ ТЕЛЕФОН ДОВЕРИЯ ЦЭПП МГППУ
8-800-2000-122
8-495-624-60-01
Начал работать 2008 г. по инициативе
Правительства г. Москвы и при поддержке
Департамента образования г. Москвы
Мы работаем, чтобы в душах людей были мир
и согласие.
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
6. ПРИНЦИПЫ РАБОТЫ ТЕЛЕФОНА ДОВЕРИЯ:
Доступность – круглосуточно, немедленно.
Уважение к собеседнику.
Конфиденциальность.
Анонимность.
Толерантность
Профессиональная поддержка.
Бесплатность.
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
7. СПЕЦИАЛИСТЫ «ДЕТСКОГО ТЕЛЕФОНА
ДОВЕРИЯ»:
Практические психологи
Клинические психологи
Социальные педагоги
Юрист (каждый четверг с 17.00 до 22.00)
ДТД функционирует круглосуточно
на 4-х канальной телефонной линии
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
8. ПРОБЛЕМЫ ОБРАЩЕНИЙ НА
ТЕЛЕФОН ДОВЕРИЯ
Конфликты со сверстниками
Первая влюбленность, безответная любовь
Семейные конфликты
Желание разобраться в себе
Жестокое обращение
Наркомания, алкоголизм и другие зависимости
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
9. ПРОБЛЕМЫ ОБРАЩЕНИЙ НА
ТЕЛЕФОН ДОВЕРИЯ
Проблемы здоровья
Переживания горя, утраты
Сексуальные проблемы, изнасилование
Учебные проблемы
Выбор профессии
Страхи, обиды, раздражения и другие
переживания.
ОДИНОЧЕСТВО
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
10. ПРИНЦИПЫ ПОМОЩИ:
Голос телефонного консультанта – голос старшего,
который разговаривает на равных и зовет взрослеть,
по-взрослому выходить из ситуации. Кроме
поддержки, звонящий получает информацию о том,
где еще может получить помощь и защиту.
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
11. НАШ САЙТ И СТРАНИЧКА ВКОНТАКТЕ
http://childhelpline.ru/
Vk.com/childhelpline
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
13. ОТВЕТЫ ПСИХОЛОГОВ ДЕТЯМ
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
14. КАК ЗАДАТЬ ВОПРОС ПСИХОЛОГУ?
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
15. ПОМОЩЬ БЛИЗКА ТАК ЖЕ КАК ТЕЛЕФОН
Ежедневно свыше 70 человек получают
помощь психологов по телефону.
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
16. ЗВОНИТЕ:
ВАС УСЛЫШАТ И ПОМОГУТ
Круглосуточно, бесплатно,
анонимно.
8-495-624-60-01
8-800-200-01-22
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ
МОСКОВСКИЙ ГОРОДСКОЙ ПСИХОЛОГО-ПЕДАГОГИЧЕКИЙ УНИВЕРСИТЕТ
ЦЕНТР ЭКСТРЕННОЙ ПСИХОЛОГИЧЕСКОЙ ПОМОЩИ МГППУ