A brief overview of each individual’s contributions to biodiversity in India: 1. Divya Mudappa: Divya Mudappa is a conservation biologist known for her extensive work in the Western Ghats, a biodiversity hotspot in India. Her research has significantly contributed to the conservation of the NilgiriRead more
A brief overview of each individual’s contributions to biodiversity in India:
1. Divya Mudappa:
Divya Mudappa is a conservation biologist known for her extensive work in the Western Ghats, a biodiversity hotspot in India. Her research has significantly contributed to the conservation of the Nilgiri tahr and other endemic species. Notable achievements include her role in the “Nilgiri Biosphere Reserve” project and her studies on human-wildlife conflict and forest management. Mudappa’s efforts in 2007-2010 led to successful habitat restoration initiatives and enhanced community engagement in conservation efforts.
2. Usha Lachunga:
Usha Lachunga has been a leading figure in the conservation of primates in Northeast India, particularly the endangered hoolock gibbons. Her work, which began in the early 2000s, includes habitat protection and local community involvement. Lachunga’s significant achievements include the establishment of the “Hoolock Gibbon Conservation Project” and her advocacy for creating protected areas for primates. Her research has been pivotal in increasing awareness and implementing conservation strategies in the region.
3. Ghazala Shahabuddin:
Ghazala Shahabuddin is an ecologist renowned for her research on human-wildlife conflict and conservation. Her work in the 2000s focused on large carnivores such as tigers and leopards. Shahabuddin’s achievements include developing innovative conflict mitigation strategies and contributing to the “Conservation Science for the Future” initiative. Her research has helped improve conservation policies and practices, emphasizing the integration of scientific research with community-based solutions.
4. Nandini Velho:
Nandini Velho is an ecologist whose research has focused on the impact of land-use changes on biodiversity in the Western Ghats and Eastern Himalayas. Since 2010, her work has highlighted the importance of sustainable land management practices. Velho’s notable achievements include her role in the “Western Ghats Biodiversity Conservation Project” and her contributions to policy advocacy for protecting forest ecosystems. Her research supports effective conservation strategies in these critical regions.
5. Vidya Athreya:
Vidya Athreya is a wildlife biologist recognized for her pioneering research on human-wildlife conflict, especially involving tigers and leopards. Since the early 2010s, her work has focused on understanding large carnivore behavior and developing conflict mitigation measures. Athreya’s notable achievements include the “Human-Wildlife Coexistence Project” and her involvement in innovative solutions such as camera traps and community-based monitoring to reduce conflicts and protect both wildlife and human populations.
6. Uma Ramakrishnan:
Uma Ramakrishnan is an expert in molecular ecology and conservation genetics. Her research, starting in the early 2000s, focuses on the genetic diversity of Indian tigers, elephants, and other species. Ramakrishnan’s significant achievements include her work on the “Indian Tiger Genome Project” and her contributions to understanding genetic health and connectivity among wildlife populations. Her research has informed conservation strategies and helped maintain genetic diversity in endangered species.
7. Divya Karnad:
Divya Karnad is an ecologist specializing in bird conservation and marine ecosystems. Her work, particularly since 2010, has focused on seabird ecology and the impact of human activities on marine environments. Karnad’s notable achievements include her role in the “Marine Conservation Initiative” and her advocacy for sustainable fishing practices. Her research has contributed to protecting critical marine habitats and promoting awareness about the importance of marine biodiversity conservation.
Each of these individuals has made significant contributions to understanding and conserving India’s rich biodiversity.
Temperature is essential for weather forecasting because it impacts atmospheric dynamics and weather patterns. Changes in temperature affect air pressure, humidity, and wind patterns, influencing weather conditions like precipitation and storm development. Meteorologists use temperature data to analRead more
Temperature is essential for weather forecasting because it impacts atmospheric dynamics and weather patterns. Changes in temperature affect air pressure, humidity, and wind patterns, influencing weather conditions like precipitation and storm development. Meteorologists use temperature data to analyze current weather and make predictions about daily and future conditions. By tracking temperature trends, forecasters can identify patterns that signal upcoming weather changes and long-term climate shifts, aiding in accurate forecasting and climate trend analysis.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
Thermal expansion refers to the tendency of a substance to increase in volume as its temperature rises. When a material is heated, its particles move faster and spread further apart, leading to an expansion of the substance. This phenomenon is observed in solids, liquids, and gases, though the degreRead more
Thermal expansion refers to the tendency of a substance to increase in volume as its temperature rises. When a material is heated, its particles move faster and spread further apart, leading to an expansion of the substance. This phenomenon is observed in solids, liquids, and gases, though the degree of expansion varies. Thermal expansion has practical implications in engineering, construction, and daily life, as materials need to account for temperature changes. For example, bridges and railways include expansion joints to accommodate the expansion and contraction caused by temperature fluctuations.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
Expansion joints are critical components in bridge design, allowing the structure to expand and contract with temperature changes without causing damage. As the temperature rises, the materials in the bridge expand, and the joints provide the necessary space to prevent cracking or warping. ConverselRead more
Expansion joints are critical components in bridge design, allowing the structure to expand and contract with temperature changes without causing damage. As the temperature rises, the materials in the bridge expand, and the joints provide the necessary space to prevent cracking or warping. Conversely, as the temperature drops, the bridge contracts. Without expansion joints, these natural movements could lead to structural failure over time.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
A clinical thermometer is a specialized thermometer designed to measure human body temperature. It usually has a temperature range from about 35°C to 42°C (95°F to 108°F), which corresponds to the range of possible human body temperatures. Clinical thermometers can be either digital, providing quickRead more
A clinical thermometer is a specialized thermometer designed to measure human body temperature. It usually has a temperature range from about 35°C to 42°C (95°F to 108°F), which corresponds to the range of possible human body temperatures. Clinical thermometers can be either digital, providing quick and accurate readings, or liquid-in-glass, which traditionally used mercury but now often use safer alternatives like alcohol.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
The freezing point of water is a critical reference in temperature measurement because it is one of the fixed points used to define temperature scales like Celsius and Fahrenheit. At standard atmospheric pressure, water freezes at 0°C or 32°F, providing a consistent, easily reproducible point for caRead more
The freezing point of water is a critical reference in temperature measurement because it is one of the fixed points used to define temperature scales like Celsius and Fahrenheit. At standard atmospheric pressure, water freezes at 0°C or 32°F, providing a consistent, easily reproducible point for calibrating thermometers. This helps ensure accuracy in temperature readings across various applications, from weather forecasting to scientific experiments.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
The boiling point of water, 100°C or 212°F at standard atmospheric pressure, is a crucial reference point in temperature measurement. It is one of the fixed points used to define the Celsius and Fahrenheit scales. The boiling point helps in calibrating thermometers and is essential in various scientRead more
The boiling point of water, 100°C or 212°F at standard atmospheric pressure, is a crucial reference point in temperature measurement. It is one of the fixed points used to define the Celsius and Fahrenheit scales. The boiling point helps in calibrating thermometers and is essential in various scientific and industrial processes, ensuring consistent and accurate temperature readings across different contexts, from cooking to chemical reactions.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
Specific heat capacity is a physical property that indicates how much heat is needed to raise the temperature of 1 kilogram of a substance by 1°C. Different materials have different specific heat capacities, meaning they require varying amounts of energy to change temperature. For instance, water haRead more
Specific heat capacity is a physical property that indicates how much heat is needed to raise the temperature of 1 kilogram of a substance by 1°C. Different materials have different specific heat capacities, meaning they require varying amounts of energy to change temperature. For instance, water has a high specific heat capacity, making it effective at regulating temperature, while metals typically have lower specific heat capacities, heating up and cooling down more quickly.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
Heat transfer is the movement of thermal energy from a hotter region to a cooler one. It can occur in three ways: conduction, where heat moves through a solid material; convection, where heat is carried by moving fluids like air or water; and radiation, where heat is transferred through electromagneRead more
Heat transfer is the movement of thermal energy from a hotter region to a cooler one. It can occur in three ways: conduction, where heat moves through a solid material; convection, where heat is carried by moving fluids like air or water; and radiation, where heat is transferred through electromagnetic waves. These mechanisms explain how heat moves within and between objects and are fundamental concepts in thermodynamics and everyday life.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
Conduction is the process by which heat is transferred through a solid material. It occurs at the microscopic level when particles, such as atoms or molecules, collide and transfer their kinetic energy. This energy moves from the hotter region, where particles are more energetic, to the cooler regioRead more
Conduction is the process by which heat is transferred through a solid material. It occurs at the microscopic level when particles, such as atoms or molecules, collide and transfer their kinetic energy. This energy moves from the hotter region, where particles are more energetic, to the cooler region, where particles are less energetic. Conduction is most effective in materials like metals, where particles are closely packed, allowing for efficient energy transfer.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
Explore the contributions of Divya Mudappa, Usha Lachunga, Ghazala Shahabuddin, Nandini Velho, Vidya Athreya, Uma Ramakrishnan and Divya Karnad towards biodiversity in India. Prepare a report of the work done by any three of them.
A brief overview of each individual’s contributions to biodiversity in India: 1. Divya Mudappa: Divya Mudappa is a conservation biologist known for her extensive work in the Western Ghats, a biodiversity hotspot in India. Her research has significantly contributed to the conservation of the NilgiriRead more
A brief overview of each individual’s contributions to biodiversity in India:
1. Divya Mudappa:
Divya Mudappa is a conservation biologist known for her extensive work in the Western Ghats, a biodiversity hotspot in India. Her research has significantly contributed to the conservation of the Nilgiri tahr and other endemic species. Notable achievements include her role in the “Nilgiri Biosphere Reserve” project and her studies on human-wildlife conflict and forest management. Mudappa’s efforts in 2007-2010 led to successful habitat restoration initiatives and enhanced community engagement in conservation efforts.
2. Usha Lachunga:
Usha Lachunga has been a leading figure in the conservation of primates in Northeast India, particularly the endangered hoolock gibbons. Her work, which began in the early 2000s, includes habitat protection and local community involvement. Lachunga’s significant achievements include the establishment of the “Hoolock Gibbon Conservation Project” and her advocacy for creating protected areas for primates. Her research has been pivotal in increasing awareness and implementing conservation strategies in the region.
3. Ghazala Shahabuddin:
Ghazala Shahabuddin is an ecologist renowned for her research on human-wildlife conflict and conservation. Her work in the 2000s focused on large carnivores such as tigers and leopards. Shahabuddin’s achievements include developing innovative conflict mitigation strategies and contributing to the “Conservation Science for the Future” initiative. Her research has helped improve conservation policies and practices, emphasizing the integration of scientific research with community-based solutions.
4. Nandini Velho:
Nandini Velho is an ecologist whose research has focused on the impact of land-use changes on biodiversity in the Western Ghats and Eastern Himalayas. Since 2010, her work has highlighted the importance of sustainable land management practices. Velho’s notable achievements include her role in the “Western Ghats Biodiversity Conservation Project” and her contributions to policy advocacy for protecting forest ecosystems. Her research supports effective conservation strategies in these critical regions.
5. Vidya Athreya:
Vidya Athreya is a wildlife biologist recognized for her pioneering research on human-wildlife conflict, especially involving tigers and leopards. Since the early 2010s, her work has focused on understanding large carnivore behavior and developing conflict mitigation measures. Athreya’s notable achievements include the “Human-Wildlife Coexistence Project” and her involvement in innovative solutions such as camera traps and community-based monitoring to reduce conflicts and protect both wildlife and human populations.
6. Uma Ramakrishnan:
Uma Ramakrishnan is an expert in molecular ecology and conservation genetics. Her research, starting in the early 2000s, focuses on the genetic diversity of Indian tigers, elephants, and other species. Ramakrishnan’s significant achievements include her work on the “Indian Tiger Genome Project” and her contributions to understanding genetic health and connectivity among wildlife populations. Her research has informed conservation strategies and helped maintain genetic diversity in endangered species.
7. Divya Karnad:
Divya Karnad is an ecologist specializing in bird conservation and marine ecosystems. Her work, particularly since 2010, has focused on seabird ecology and the impact of human activities on marine environments. Karnad’s notable achievements include her role in the “Marine Conservation Initiative” and her advocacy for sustainable fishing practices. Her research has contributed to protecting critical marine habitats and promoting awareness about the importance of marine biodiversity conservation.
Each of these individuals has made significant contributions to understanding and conserving India’s rich biodiversity.
See lessWhat is the role of temperature in weather forecasting?
Temperature is essential for weather forecasting because it impacts atmospheric dynamics and weather patterns. Changes in temperature affect air pressure, humidity, and wind patterns, influencing weather conditions like precipitation and storm development. Meteorologists use temperature data to analRead more
Temperature is essential for weather forecasting because it impacts atmospheric dynamics and weather patterns. Changes in temperature affect air pressure, humidity, and wind patterns, influencing weather conditions like precipitation and storm development. Meteorologists use temperature data to analyze current weather and make predictions about daily and future conditions. By tracking temperature trends, forecasters can identify patterns that signal upcoming weather changes and long-term climate shifts, aiding in accurate forecasting and climate trend analysis.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-7/
See lessWhat is thermal expansion?
Thermal expansion refers to the tendency of a substance to increase in volume as its temperature rises. When a material is heated, its particles move faster and spread further apart, leading to an expansion of the substance. This phenomenon is observed in solids, liquids, and gases, though the degreRead more
Thermal expansion refers to the tendency of a substance to increase in volume as its temperature rises. When a material is heated, its particles move faster and spread further apart, leading to an expansion of the substance. This phenomenon is observed in solids, liquids, and gases, though the degree of expansion varies. Thermal expansion has practical implications in engineering, construction, and daily life, as materials need to account for temperature changes. For example, bridges and railways include expansion joints to accommodate the expansion and contraction caused by temperature fluctuations.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-7/
See lessWhy do bridges have expansion joints?
Expansion joints are critical components in bridge design, allowing the structure to expand and contract with temperature changes without causing damage. As the temperature rises, the materials in the bridge expand, and the joints provide the necessary space to prevent cracking or warping. ConverselRead more
Expansion joints are critical components in bridge design, allowing the structure to expand and contract with temperature changes without causing damage. As the temperature rises, the materials in the bridge expand, and the joints provide the necessary space to prevent cracking or warping. Conversely, as the temperature drops, the bridge contracts. Without expansion joints, these natural movements could lead to structural failure over time.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-7/
See lessWhat is a clinical thermometer?
A clinical thermometer is a specialized thermometer designed to measure human body temperature. It usually has a temperature range from about 35°C to 42°C (95°F to 108°F), which corresponds to the range of possible human body temperatures. Clinical thermometers can be either digital, providing quickRead more
A clinical thermometer is a specialized thermometer designed to measure human body temperature. It usually has a temperature range from about 35°C to 42°C (95°F to 108°F), which corresponds to the range of possible human body temperatures. Clinical thermometers can be either digital, providing quick and accurate readings, or liquid-in-glass, which traditionally used mercury but now often use safer alternatives like alcohol.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-7/
See lessWhy is the freezing point of water important in temperature measurement?
The freezing point of water is a critical reference in temperature measurement because it is one of the fixed points used to define temperature scales like Celsius and Fahrenheit. At standard atmospheric pressure, water freezes at 0°C or 32°F, providing a consistent, easily reproducible point for caRead more
The freezing point of water is a critical reference in temperature measurement because it is one of the fixed points used to define temperature scales like Celsius and Fahrenheit. At standard atmospheric pressure, water freezes at 0°C or 32°F, providing a consistent, easily reproducible point for calibrating thermometers. This helps ensure accuracy in temperature readings across various applications, from weather forecasting to scientific experiments.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-7/
See lessWhat is the boiling point of water and its significance?
The boiling point of water, 100°C or 212°F at standard atmospheric pressure, is a crucial reference point in temperature measurement. It is one of the fixed points used to define the Celsius and Fahrenheit scales. The boiling point helps in calibrating thermometers and is essential in various scientRead more
The boiling point of water, 100°C or 212°F at standard atmospheric pressure, is a crucial reference point in temperature measurement. It is one of the fixed points used to define the Celsius and Fahrenheit scales. The boiling point helps in calibrating thermometers and is essential in various scientific and industrial processes, ensuring consistent and accurate temperature readings across different contexts, from cooking to chemical reactions.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-7/
See lessWhat is specific heat capacity?
Specific heat capacity is a physical property that indicates how much heat is needed to raise the temperature of 1 kilogram of a substance by 1°C. Different materials have different specific heat capacities, meaning they require varying amounts of energy to change temperature. For instance, water haRead more
Specific heat capacity is a physical property that indicates how much heat is needed to raise the temperature of 1 kilogram of a substance by 1°C. Different materials have different specific heat capacities, meaning they require varying amounts of energy to change temperature. For instance, water has a high specific heat capacity, making it effective at regulating temperature, while metals typically have lower specific heat capacities, heating up and cooling down more quickly.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-7/
See lessHow does heat transfer occur?
Heat transfer is the movement of thermal energy from a hotter region to a cooler one. It can occur in three ways: conduction, where heat moves through a solid material; convection, where heat is carried by moving fluids like air or water; and radiation, where heat is transferred through electromagneRead more
Heat transfer is the movement of thermal energy from a hotter region to a cooler one. It can occur in three ways: conduction, where heat moves through a solid material; convection, where heat is carried by moving fluids like air or water; and radiation, where heat is transferred through electromagnetic waves. These mechanisms explain how heat moves within and between objects and are fundamental concepts in thermodynamics and everyday life.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-7/
See lessWhat is conduction?
Conduction is the process by which heat is transferred through a solid material. It occurs at the microscopic level when particles, such as atoms or molecules, collide and transfer their kinetic energy. This energy moves from the hotter region, where particles are more energetic, to the cooler regioRead more
Conduction is the process by which heat is transferred through a solid material. It occurs at the microscopic level when particles, such as atoms or molecules, collide and transfer their kinetic energy. This energy moves from the hotter region, where particles are more energetic, to the cooler region, where particles are less energetic. Conduction is most effective in materials like metals, where particles are closely packed, allowing for efficient energy transfer.
For more CBSE Class 6 Science Curiosity Chapter 7 Temperature and its Measurement Extra Questions & Answer:
https://www.tiwariacademy.com/ncert-solutions-class-6-science-curiosity-chapter-7/
See less