Why is February 15 important for science?
📌 February 15 is important for modern science as it is Galileo Galilei’s birthday.
📌 Galileo (1564-1642) ⬆️ was an Italian natural philosopher who made several major contributions to scientific progress.
📌 Before Galileo, science was not considered a profession. Typically, people who did ‘science’ were considered natural philosophers and held positions as medical doctors, mathematicians or priests with extra time on their hands.
📌 Galileo was one of the first to express the belief that the basic laws of science could be broken down into mathematics.
📌 🔭 He studied speed and gravity to predict paths of projectile motion. He was among the first to take a closer look at the skies above with a telescope.
📌 His life is generally used as the beginning point of the history of modern science.
📌 His philosophy of observing first, explain second and then observe some more would become the foundation of the modern scientific method.
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📌 February 15 is important for modern science as it is Galileo Galilei’s birthday.
📌 Galileo (1564-1642) ⬆️ was an Italian natural philosopher who made several major contributions to scientific progress.
📌 Before Galileo, science was not considered a profession. Typically, people who did ‘science’ were considered natural philosophers and held positions as medical doctors, mathematicians or priests with extra time on their hands.
📌 Galileo was one of the first to express the belief that the basic laws of science could be broken down into mathematics.
📌 🔭 He studied speed and gravity to predict paths of projectile motion. He was among the first to take a closer look at the skies above with a telescope.
📌 His life is generally used as the beginning point of the history of modern science.
📌 His philosophy of observing first, explain second and then observe some more would become the foundation of the modern scientific method.
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Is Pollen always yellow?
🟨 Pollen is the fertilization agent of plants and the essential element for the survival of many plant species. It is responsible for the formation of seeds, fruit.
🟨 Pollen is a botanical term that referred to "the fertilizing element of flowers" and was first used as long ago as 1760 by Carl Linnaeus. it has come to be known as "fine, powdery, yellowish grains or spores."
🟨🟥🟪🟫 Though pollen is associated with the color yellow, pollen can come in many vibrant colors, including red, purple, white, and brown ⬆️.
🟨 Since insect pollinators such as bees, can't see red, plants produce yellow (or sometimes blue) pollen to attract them. This is why most plants have yellow pollen, but there are some exceptions. For instance, birds and butterflies are attracted to red colors, so some plants produce red pollen to attract these organisms.
ℹ️ The scientific study of living and fossilized pollen grains is known as palynology.
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🟨 Pollen is the fertilization agent of plants and the essential element for the survival of many plant species. It is responsible for the formation of seeds, fruit.
🟨 Pollen is a botanical term that referred to "the fertilizing element of flowers" and was first used as long ago as 1760 by Carl Linnaeus. it has come to be known as "fine, powdery, yellowish grains or spores."
🟨🟥🟪🟫 Though pollen is associated with the color yellow, pollen can come in many vibrant colors, including red, purple, white, and brown ⬆️.
🟨 Since insect pollinators such as bees, can't see red, plants produce yellow (or sometimes blue) pollen to attract them. This is why most plants have yellow pollen, but there are some exceptions. For instance, birds and butterflies are attracted to red colors, so some plants produce red pollen to attract these organisms.
ℹ️ The scientific study of living and fossilized pollen grains is known as palynology.
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Is Pollen always yellow? 🟨 Pollen is the fertilization agent of plants and the essential element for the survival of many plant species. It is responsible for the formation of seeds, fruit. 🟨 Pollen is a botanical term that referred to "the fertilizing…
What are some fascinating facts about pollen?
🟡 Not All Pollen Types Trigger Allergies
Pollen is an allergen and plants that release it into the air, such as ragweed, oaks, elms, maple trees, and grasses, are most often responsible for triggering allergy in humans, having a hypersensitivity to this type of pollen. However, because most plants that flower transfer pollen via insects and not via the wind, flowering plants are not typically the cause of allergic reactions.
🔴 Plants Use Trickery to Spread Pollen
Flowers that have white or other light colors are more easily seen in the dark by nocturnal insects like moths. Plants that are lower to the ground attract bugs that can't fly, such as ants or beetles. Some plants also cater to insects' sense of smell by producing a rotten smell to attract flies. Still, other plants have flowers that resemble the females of certain insects to lure males of the species.
🟠 Plant Pollinators Can Be Large or Small
When we think of pollinators, we usually think of bees. However, a number of insects such as butterflies, ants, beetles, and flies and animals such as hummingbirds and bats also transfer pollen. Two of the smallest natural plant pollinators are the fig wasp and the panurgine bee. The female fig wasp, Blastophaga psenes, is only about 1.55mm ( in length. One of the largest natural pollinators happens to be the black and white ruffed lemur from Madagascar.
🟤 Pollen is the Primary Source of Protein for Bees
The protein content of pollen varies between 2.5% and 61%, depending on the plant species. For context, beef is approximately 26% protein.
🟣 Pollen Contains the Male Sex Cells in Plants
Pollen is the male sperm producing gametophyte of a plant. A pollen grain contains both non-reproductive cells, known as vegetative cells and a reproductive or generative cell. In flowering plants, pollen is produced in the anther of the flower stamen. In conifers, pollen is produced in the pollen cone.
⚪️ Pollen Grains Must Create a Tunnel for Pollination to Occur
In order for pollination to occur, the pollen grain must germinate in the female portion (carpel) of the same plant or another plant of the same species. In flowering plants, the stigma portion of the carpel collects the pollen. The vegetative cells in the pollen grain create a pollen tube to tunnel down from the stigma, through the long style of the carpel, to the ovary. Division of the generative cell produces two sperm cells, which travel down the pollen tube into the ovule. This journey usually takes up to two days, but some sperm cells can take months to reach the ovary.
🟢 Pollen Is Required for Both Self-Pollination and Cross-Pollination
In flowers that have both stamens (male parts) and carpels (female parts), both self-pollination and cross-pollination can occur. In self-pollination, sperm cells fuse with the ovule from the female part of the same plant. In cross-pollination, pollen is transferred from the male portion of one plant to the female portion of another genetically similar plant. This helps in the development of new species of plants and increases the adaptability of plants.
🔵 Some Plants Use Toxins to Prevent Self-Pollination
Some flowering plants have molecular self-recognition systems that help prevent self-fertilization by rejecting pollen produced by the same plant. Once pollen has been identified as "self", it is blocked from germination. In some plants, a toxin called S-RNase poisons the pollen tube if the pollen and pistil (female reproductive part or carpel) are too closely related, thus preventing inbreeding.
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🟡 Not All Pollen Types Trigger Allergies
Pollen is an allergen and plants that release it into the air, such as ragweed, oaks, elms, maple trees, and grasses, are most often responsible for triggering allergy in humans, having a hypersensitivity to this type of pollen. However, because most plants that flower transfer pollen via insects and not via the wind, flowering plants are not typically the cause of allergic reactions.
🔴 Plants Use Trickery to Spread Pollen
Flowers that have white or other light colors are more easily seen in the dark by nocturnal insects like moths. Plants that are lower to the ground attract bugs that can't fly, such as ants or beetles. Some plants also cater to insects' sense of smell by producing a rotten smell to attract flies. Still, other plants have flowers that resemble the females of certain insects to lure males of the species.
🟠 Plant Pollinators Can Be Large or Small
When we think of pollinators, we usually think of bees. However, a number of insects such as butterflies, ants, beetles, and flies and animals such as hummingbirds and bats also transfer pollen. Two of the smallest natural plant pollinators are the fig wasp and the panurgine bee. The female fig wasp, Blastophaga psenes, is only about 1.55mm ( in length. One of the largest natural pollinators happens to be the black and white ruffed lemur from Madagascar.
🟤 Pollen is the Primary Source of Protein for Bees
The protein content of pollen varies between 2.5% and 61%, depending on the plant species. For context, beef is approximately 26% protein.
🟣 Pollen Contains the Male Sex Cells in Plants
Pollen is the male sperm producing gametophyte of a plant. A pollen grain contains both non-reproductive cells, known as vegetative cells and a reproductive or generative cell. In flowering plants, pollen is produced in the anther of the flower stamen. In conifers, pollen is produced in the pollen cone.
⚪️ Pollen Grains Must Create a Tunnel for Pollination to Occur
In order for pollination to occur, the pollen grain must germinate in the female portion (carpel) of the same plant or another plant of the same species. In flowering plants, the stigma portion of the carpel collects the pollen. The vegetative cells in the pollen grain create a pollen tube to tunnel down from the stigma, through the long style of the carpel, to the ovary. Division of the generative cell produces two sperm cells, which travel down the pollen tube into the ovule. This journey usually takes up to two days, but some sperm cells can take months to reach the ovary.
🟢 Pollen Is Required for Both Self-Pollination and Cross-Pollination
In flowers that have both stamens (male parts) and carpels (female parts), both self-pollination and cross-pollination can occur. In self-pollination, sperm cells fuse with the ovule from the female part of the same plant. In cross-pollination, pollen is transferred from the male portion of one plant to the female portion of another genetically similar plant. This helps in the development of new species of plants and increases the adaptability of plants.
🔵 Some Plants Use Toxins to Prevent Self-Pollination
Some flowering plants have molecular self-recognition systems that help prevent self-fertilization by rejecting pollen produced by the same plant. Once pollen has been identified as "self", it is blocked from germination. In some plants, a toxin called S-RNase poisons the pollen tube if the pollen and pistil (female reproductive part or carpel) are too closely related, thus preventing inbreeding.
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How bananas may be used to fight the plastic waste crisis?
🛍 Plastic bags take up to 20 years to decompose. With very little plastic being recycled, most end up in landfills or littered in the greater environment, creating serious environmental consequences. Finding a plastic-like alternative that will decompose relatively quickly would go a long way in fighting the ongoing plastic waste crisis.
🍌ℹ️ Bananas are the fourth most grown crop in the world, trailing only rice, wheat and corn, and almost 36 million tons of banana peels are produced yearly.
🍌➡️🛍 According to a new study, banana peels may be utilized to create biodegradable films and one day replace plastic as the dominant food packaging material.
✅ A produced film was strong, transparent, and more importantly, biodegradable within 30 days at 21% soil moisture content ⬆️.
✔️ Further research will look to improve the film's flexibility and investigate the scalability and commercialization of this preparation process.
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🛍 Plastic bags take up to 20 years to decompose. With very little plastic being recycled, most end up in landfills or littered in the greater environment, creating serious environmental consequences. Finding a plastic-like alternative that will decompose relatively quickly would go a long way in fighting the ongoing plastic waste crisis.
🍌ℹ️ Bananas are the fourth most grown crop in the world, trailing only rice, wheat and corn, and almost 36 million tons of banana peels are produced yearly.
🍌➡️🛍 According to a new study, banana peels may be utilized to create biodegradable films and one day replace plastic as the dominant food packaging material.
✅ A produced film was strong, transparent, and more importantly, biodegradable within 30 days at 21% soil moisture content ⬆️.
✔️ Further research will look to improve the film's flexibility and investigate the scalability and commercialization of this preparation process.
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What is Earth made of?
🌐 Earth is made up of several layers.
🌏 Earth's layers can be assigned according to chemical composition (what they're made of) or mechanical properties (rock strength and elasticity) ⬆️.
🌍 According to chemical composition Earth's layers are
☑️ the core
☑️mantle, the largest and thickest layer, making up 84% of the planet's total volume
☑️ crust
🌎 According to mechanical properties, Earth's layers are
☑️ the lithosphere, divided into oceanic crust (primarily composed of dark basalt rocks rich in elements such as silicon and magnesium) and continental crust (made of light-colored granite rocks containing oxygen and silicon)
☑️ asthenosphere
☑️ lower mantle (also known as mesospheric mantle),
☑️ outer core
☑️ inner core
ℹ️ The term lithosphere is derived from the Greek words "lithos," meaning stone, and "sphaira," meaning globe or ball.
ℹ️ The term asthenosphere originates from the Greek "asthenes" meaning weak.
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🌐 Earth is made up of several layers.
🌏 Earth's layers can be assigned according to chemical composition (what they're made of) or mechanical properties (rock strength and elasticity) ⬆️.
🌍 According to chemical composition Earth's layers are
☑️ the core
☑️mantle, the largest and thickest layer, making up 84% of the planet's total volume
☑️ crust
🌎 According to mechanical properties, Earth's layers are
☑️ the lithosphere, divided into oceanic crust (primarily composed of dark basalt rocks rich in elements such as silicon and magnesium) and continental crust (made of light-colored granite rocks containing oxygen and silicon)
☑️ asthenosphere
☑️ lower mantle (also known as mesospheric mantle),
☑️ outer core
☑️ inner core
ℹ️ The term lithosphere is derived from the Greek words "lithos," meaning stone, and "sphaira," meaning globe or ball.
ℹ️ The term asthenosphere originates from the Greek "asthenes" meaning weak.
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Ask Me
What is Earth made of? 🌐 Earth is made up of several layers. 🌏 Earth's layers can be assigned according to chemical composition (what they're made of) or mechanical properties (rock strength and elasticity) ⬆️. 🌍 According to chemical composition Earth's…
What are Earth’s layers interesting facts?
🔘 Inner core is at the very center of Earth.
✔️ Radius: 1,221 km (759 miles)
✔️ Temperature: About 5,200 degrees °C (9,392 degrees Fahrenheit)
✔️ Pressure: Nearly 3.6 million atmospheric pressure (atm)
✔️ State: Solid
✔️ Composition: Mostly iron and some nickel
🔁 Inner core rotates in the same direction as the surface of the planet but rotates ever so slightly faster, completing one extra rotation every 1,000 years or so.
⚫️ Outer core is sandwiched between the inner core and the mantle. The boundary between the inner and outer core is known as the Lehman Seismic Discontinuity.
✔️ Thickness: 2,300 km (1,400 miles)
✔️ Temperature: Between 4,500 degrees °C and 5,500 degrees °C (8,132 degrees F and 9,932 degrees F).
✔️ State: Fluid
✔️ Composition: Iron and nickel
🧲 The swirling motion of the outer core generates Earth's magnetic field in a process called geodynamo. Magnetism inside Earth's core is approximately 50 times stronger than it is on the surface. Eventually, the entire core will solidify and Earth's magnetic field will cease to exist. That will be bad news for our planet as the magnetic field protects us from harmful cosmic radiation. We still have a few billions of years of protection left though.
🔴 The mantle can be divided into the upper and lower mantle (also known as the mesospheric mantle), with the upper mantle containing two distinct regions: the asthenosphere and the lower portion of the lithosphere.
✔️ Thickness: Approximately 2,900 km (1,800 miles)
✔️ Temperature: 3,700 degrees °C to 1,000 degrees °C (6,692 degrees F to 1,832 degrees F)
✔️ State: Solid
✔️ Composition: Magnesium, silicon and oxygen
🌡 The immense pressure keeps this layer solid despite the high temperatures capable of softening the rocks. Though geologists are yet to agree on a definitive structure of the lower mantle.
💎 Diamonds are forged within the mantle approximately 150 to 200 km (93 to 124 miles) below the surface.
🟥 The asthenosphere is a 180 km (110 miles) thick layer of the upper mantle that sits between the lower mantle and the lithosphere.
✔️ Temperature: 1,500 degrees °C (2,732 degrees F)
✔️ Thickness: 180 km (110 miles)
🪨 Rocks in the asthenosphere are "on the verge" of melting.
🟫 The lithosphere is the outermost layer of Earth, composed of the crust and the brittle part of the upper mantle.
✔️ Depth: 8 to 32 km (5 to 20 miles)
✔️ Temperature: Range from 0 to 500 degrees °C (32 to 932 degrees F).
↔️ The boundary between the brittle part of the upper mantle and the crust (both oceanic and continental) is known as the Mohorovičić Discontinuity (Moho), which depth varies from about 8 km (5 miles) below oceanic crust to 32 km (20 miles) below continental crust.
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🔘 Inner core is at the very center of Earth.
✔️ Radius: 1,221 km (759 miles)
✔️ Temperature: About 5,200 degrees °C (9,392 degrees Fahrenheit)
✔️ Pressure: Nearly 3.6 million atmospheric pressure (atm)
✔️ State: Solid
✔️ Composition: Mostly iron and some nickel
🔁 Inner core rotates in the same direction as the surface of the planet but rotates ever so slightly faster, completing one extra rotation every 1,000 years or so.
⚫️ Outer core is sandwiched between the inner core and the mantle. The boundary between the inner and outer core is known as the Lehman Seismic Discontinuity.
✔️ Thickness: 2,300 km (1,400 miles)
✔️ Temperature: Between 4,500 degrees °C and 5,500 degrees °C (8,132 degrees F and 9,932 degrees F).
✔️ State: Fluid
✔️ Composition: Iron and nickel
🧲 The swirling motion of the outer core generates Earth's magnetic field in a process called geodynamo. Magnetism inside Earth's core is approximately 50 times stronger than it is on the surface. Eventually, the entire core will solidify and Earth's magnetic field will cease to exist. That will be bad news for our planet as the magnetic field protects us from harmful cosmic radiation. We still have a few billions of years of protection left though.
🔴 The mantle can be divided into the upper and lower mantle (also known as the mesospheric mantle), with the upper mantle containing two distinct regions: the asthenosphere and the lower portion of the lithosphere.
✔️ Thickness: Approximately 2,900 km (1,800 miles)
✔️ Temperature: 3,700 degrees °C to 1,000 degrees °C (6,692 degrees F to 1,832 degrees F)
✔️ State: Solid
✔️ Composition: Magnesium, silicon and oxygen
🌡 The immense pressure keeps this layer solid despite the high temperatures capable of softening the rocks. Though geologists are yet to agree on a definitive structure of the lower mantle.
💎 Diamonds are forged within the mantle approximately 150 to 200 km (93 to 124 miles) below the surface.
🟥 The asthenosphere is a 180 km (110 miles) thick layer of the upper mantle that sits between the lower mantle and the lithosphere.
✔️ Temperature: 1,500 degrees °C (2,732 degrees F)
✔️ Thickness: 180 km (110 miles)
🪨 Rocks in the asthenosphere are "on the verge" of melting.
🟫 The lithosphere is the outermost layer of Earth, composed of the crust and the brittle part of the upper mantle.
✔️ Depth: 8 to 32 km (5 to 20 miles)
✔️ Temperature: Range from 0 to 500 degrees °C (32 to 932 degrees F).
↔️ The boundary between the brittle part of the upper mantle and the crust (both oceanic and continental) is known as the Mohorovičić Discontinuity (Moho), which depth varies from about 8 km (5 miles) below oceanic crust to 32 km (20 miles) below continental crust.
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What tells us how much heat the object has?
🌡Temperature tells us the degree of hotness or coldness of an object.
🌡It is a measurable physical property like other measurable physical properties such as velocity, mass, and density.
🔬At a microscopic level…
🌡Temperature tells us the degree of hotness or coldness of an object.
🌡It is a measurable physical property like other measurable physical properties such as velocity, mass, and density.
🔬At a microscopic level…
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Why is the Earth an ever-changing landscape?
🔺 The theory of plate tectonics, developed during the mid-20th century, revolutionized scientific understanding of the Earth’s dynamics. It proposes that the Earth’s lithosphere consists of several tectonic plates that float on the semi-fluid asthenosphere beneath.
🔺 There are seven major plates ⬆️⬇️
1️⃣The African Plate
2️⃣The Antarctic Plate
3️⃣The Eurasian Plate
4️⃣The Indo-Australian Plate (sometimes divided into Indian Plate and Australian Plate)
5️⃣The North American Plate
6️⃣The Pacific Plate
7️⃣The South American Plate
There are also smaller plates like the Nazca, Cocos, Scotia, Caribbean, Arabian, and Philippine Sea Plate.
🔺 The largest plates, like the Pacific and Eurasian plates, span thousands of kilometers across. Smaller plates are just a few hundred kilometers across.
🔺 Plates’ size and shape continually change over geological time due to the dynamic nature of plate tectonics.
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🔺 The theory of plate tectonics, developed during the mid-20th century, revolutionized scientific understanding of the Earth’s dynamics. It proposes that the Earth’s lithosphere consists of several tectonic plates that float on the semi-fluid asthenosphere beneath.
🔺 There are seven major plates ⬆️⬇️
1️⃣The African Plate
2️⃣The Antarctic Plate
3️⃣The Eurasian Plate
4️⃣The Indo-Australian Plate (sometimes divided into Indian Plate and Australian Plate)
5️⃣The North American Plate
6️⃣The Pacific Plate
7️⃣The South American Plate
There are also smaller plates like the Nazca, Cocos, Scotia, Caribbean, Arabian, and Philippine Sea Plate.
🔺 The largest plates, like the Pacific and Eurasian plates, span thousands of kilometers across. Smaller plates are just a few hundred kilometers across.
🔺 Plates’ size and shape continually change over geological time due to the dynamic nature of plate tectonics.
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What happens when tectonic plates meet?
The edges where tectonic plates meet are known as plate boundaries ⬆️
There are three main types:
1️⃣Convergent Boundaries (Destructive Boundaries/Active Margins): Plates move towards each other, forming either a continental collision or else a subduction zone where one plate moves under the other⬆️. The oceanic plate always subducts beneath the continental plate.
2️⃣Divergent Boundaries (Constructive/Extensional Boundaries): Plates move apart.
3️⃣Transform Boundaries (Conservative/Strike-Slip Boundaries): Plates slide past each other along transform boundaries. The motion of the plates relative to each other is either sinistral (left side toward the observer) or dextral (right side toward the observer).
Sometimes over time it isn’t easy to define just one boundary type.
🗻Mountains form primarily at convergent boundaries.
🌋Volcanoes can occur at both convergent and divergent boundaries.
Plate boundaries also cause earthquakes.
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The edges where tectonic plates meet are known as plate boundaries ⬆️
There are three main types:
1️⃣Convergent Boundaries (Destructive Boundaries/Active Margins): Plates move towards each other, forming either a continental collision or else a subduction zone where one plate moves under the other⬆️. The oceanic plate always subducts beneath the continental plate.
2️⃣Divergent Boundaries (Constructive/Extensional Boundaries): Plates move apart.
3️⃣Transform Boundaries (Conservative/Strike-Slip Boundaries): Plates slide past each other along transform boundaries. The motion of the plates relative to each other is either sinistral (left side toward the observer) or dextral (right side toward the observer).
Sometimes over time it isn’t easy to define just one boundary type.
🗻Mountains form primarily at convergent boundaries.
🌋Volcanoes can occur at both convergent and divergent boundaries.
Plate boundaries also cause earthquakes.
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Why is International Polar Bear Day celebrated on 27 February?
🐻❄️International Polar Bear Day was first initiated in 1994 by Polar Bear International.
📌This non-profit organization founded the day to coincide with the time period when polar bear moms and cubs are snug in their dens.
🐻❄️Each year, in early January, polar bear females give birth to tiny helpless cubs in a snow den where they spend several months until cubs are big and strong enough for a life in the Arctic.
ℹ️Polar bears, the largest carnivorous land animals, are considered a keystone species in the Arctic ecosystem, playing a crucial role in maintaining the balance of their habitat. However, they are facing numerous threats, primarily due to human activities and climate change.
International Polar Bear also serves
📌as a platform to promote conservation measures that can help to safeguard the future of the Arctic
📌as a reminder of the importance of collective efforts to protect this vulnerable species.
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🐻❄️International Polar Bear Day was first initiated in 1994 by Polar Bear International.
📌This non-profit organization founded the day to coincide with the time period when polar bear moms and cubs are snug in their dens.
🐻❄️Each year, in early January, polar bear females give birth to tiny helpless cubs in a snow den where they spend several months until cubs are big and strong enough for a life in the Arctic.
ℹ️Polar bears, the largest carnivorous land animals, are considered a keystone species in the Arctic ecosystem, playing a crucial role in maintaining the balance of their habitat. However, they are facing numerous threats, primarily due to human activities and climate change.
International Polar Bear also serves
📌as a platform to promote conservation measures that can help to safeguard the future of the Arctic
📌as a reminder of the importance of collective efforts to protect this vulnerable species.
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What is the importance of February 28 for India?
🇮🇳🗓 Since 1986, every year in India, National Science Day is observed on February 28.
This date is related to the time period in 1928 when Indian Physicist Chandrasekhara Venkata Raman (1888-1970) ⬆️ announced discovery of the Raman Effect, or the Raman scattering.
The Raman Effect is the phenomenon where light gets scattered when passed through a transparent material, leading to changes in wavelength and energy.
CV Raman also received the Nobel Prize in Physics in 1930 due to his significant contribution in this field of science.
The day aims to raise awareness about the importance of scientific applications in our daily lives.
The day also aims to celebrate and acknowledge the efforts and achievements of scientists in human welfare.
The theme for National Science Day 2024 is - Indigenous Technologies for Viksit Bharat.
💬✍️"Success can come to you by courageous devotion to the task lying in front of you." - CV Raman
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🇮🇳🗓 Since 1986, every year in India, National Science Day is observed on February 28.
This date is related to the time period in 1928 when Indian Physicist Chandrasekhara Venkata Raman (1888-1970) ⬆️ announced discovery of the Raman Effect, or the Raman scattering.
The Raman Effect is the phenomenon where light gets scattered when passed through a transparent material, leading to changes in wavelength and energy.
CV Raman also received the Nobel Prize in Physics in 1930 due to his significant contribution in this field of science.
The day aims to raise awareness about the importance of scientific applications in our daily lives.
The day also aims to celebrate and acknowledge the efforts and achievements of scientists in human welfare.
The theme for National Science Day 2024 is - Indigenous Technologies for Viksit Bharat.
💬✍️"Success can come to you by courageous devotion to the task lying in front of you." - CV Raman
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What are some surprising facts about leap years?
ℹ️ 2024 is a leap year with an extra day on February 29.
✍️ Here are some interesting facts about leap years and February 29 ⬇️.
📍🗓 In his Julian calendar, Julius Caesar introduced the first leap year around 46 B.C., but this calendar had only one rule: Any year evenly divisible by four would be a leap year. That created too many leap years, but the math wasn't tweaked until Pope Gregory XIII introduced his Gregorian calendar more than 1,500 years later.
📍 All the other months in the Julian calendar have 30 or 31 days, but February lost out to the ego of Roman Emperor Caesar Augustus. Under his predecessor Julius Caesar, February had 30 days and the month named after him - July - had 31. August had only 29 days. When Caesar Augustus became Emperor he added two days to 'his' month to make August the same as July. So February lost out to August in the battle of the extra days.
📍 Without an extra day on February 29 nearly every four years, we would lose almost six hours every year. After only 100 years, our calendar would be off by approximately 24 days.
📍 People born on February 29 are called "leaplings" or "leapers".
📍 The odds of being born on a leap day are 1 in about 1500.
📍🔮 Astrologers believe people born on February 29 have unusual talents
📍🇮🇹🇬🇷🇷🇺🏴 Some countries, e.g. Italy, Greece, Russia and Scotland, consider Leap Year and Leap Day to be the unluckiest of times.
📍💍 In some countries, it's OK for a woman to propose to a man on February 29.
📍🐸 In some countries, the frog is a symbol associated with February 29.
📍🇺🇸 The twin cities of Anthony, Texas, and Anthony, New Mexico, are the self-proclaimed Leap Year Capital of the World. They hold a four-day leap year festival that includes a huge birthday party for all leap year babies. (ID required.)
📍🇫🇷 🗞 Since 1980, a special French newspaper has only been published on Leap Day. La Bougie du Sapeur is only available on February 29, and it usually outsells all other newspapers on that day.
📍🎂 Many companies don’t recognize Leap Day as a “valid day.” They make leapers choose Feb. 28 or March 1 as their birthday instead.
📍🫰💳 Most employees who are paid fixed monthly incomes will work for free on Feb. 29 because their wages are likely not calculated to include the extra day.
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ℹ️ 2024 is a leap year with an extra day on February 29.
✍️ Here are some interesting facts about leap years and February 29 ⬇️.
📍🗓 In his Julian calendar, Julius Caesar introduced the first leap year around 46 B.C., but this calendar had only one rule: Any year evenly divisible by four would be a leap year. That created too many leap years, but the math wasn't tweaked until Pope Gregory XIII introduced his Gregorian calendar more than 1,500 years later.
📍 All the other months in the Julian calendar have 30 or 31 days, but February lost out to the ego of Roman Emperor Caesar Augustus. Under his predecessor Julius Caesar, February had 30 days and the month named after him - July - had 31. August had only 29 days. When Caesar Augustus became Emperor he added two days to 'his' month to make August the same as July. So February lost out to August in the battle of the extra days.
📍 Without an extra day on February 29 nearly every four years, we would lose almost six hours every year. After only 100 years, our calendar would be off by approximately 24 days.
📍 People born on February 29 are called "leaplings" or "leapers".
📍 The odds of being born on a leap day are 1 in about 1500.
📍🔮 Astrologers believe people born on February 29 have unusual talents
📍🇮🇹🇬🇷🇷🇺🏴 Some countries, e.g. Italy, Greece, Russia and Scotland, consider Leap Year and Leap Day to be the unluckiest of times.
📍💍 In some countries, it's OK for a woman to propose to a man on February 29.
📍🐸 In some countries, the frog is a symbol associated with February 29.
📍🇺🇸 The twin cities of Anthony, Texas, and Anthony, New Mexico, are the self-proclaimed Leap Year Capital of the World. They hold a four-day leap year festival that includes a huge birthday party for all leap year babies. (ID required.)
📍🇫🇷 🗞 Since 1980, a special French newspaper has only been published on Leap Day. La Bougie du Sapeur is only available on February 29, and it usually outsells all other newspapers on that day.
📍🎂 Many companies don’t recognize Leap Day as a “valid day.” They make leapers choose Feb. 28 or March 1 as their birthday instead.
📍🫰💳 Most employees who are paid fixed monthly incomes will work for free on Feb. 29 because their wages are likely not calculated to include the extra day.
Subscribe- t.me/askmenow
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How many early human species existed on Earth?
The answer to this question depends on the definition of a human, the definition of a species and the degree to which you accept variation within a species.
Most experts agree that our species, Homo sapiens (Latin for “wise men”), may be the ninth and youngest human species.
H. habilis: the handyman (2.4 million – 1.4 million years ago)
H. erectus: the enduring hiker (1.89 million to 110.000 years ago)
H. rudolfensis: the stranger (1.9 million to 1.8 million years ago)
H. heidelbergensis: the hunter (700,000 to 200,000 years ago)
H. floresiensis: the Hobbit (100,000 to 50,000 years ago)
H. neanderthalensis: The Neanderthal (400,000 – 40,000 years ago)
H. naledi (335,000 to 236,000 years ago)
H. luzonensis (at least 67,000 years ago)
Some scientists say that there were up to twenty early human species.
There is also a growing debate about whether H. Sapiens, Neanderthals and Denisovans are in fact all one species.
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The answer to this question depends on the definition of a human, the definition of a species and the degree to which you accept variation within a species.
Most experts agree that our species, Homo sapiens (Latin for “wise men”), may be the ninth and youngest human species.
H. habilis: the handyman (2.4 million – 1.4 million years ago)
H. erectus: the enduring hiker (1.89 million to 110.000 years ago)
H. rudolfensis: the stranger (1.9 million to 1.8 million years ago)
H. heidelbergensis: the hunter (700,000 to 200,000 years ago)
H. floresiensis: the Hobbit (100,000 to 50,000 years ago)
H. neanderthalensis: The Neanderthal (400,000 – 40,000 years ago)
H. naledi (335,000 to 236,000 years ago)
H. luzonensis (at least 67,000 years ago)
Some scientists say that there were up to twenty early human species.
There is also a growing debate about whether H. Sapiens, Neanderthals and Denisovans are in fact all one species.
Subscribe- t.me/askmenow
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Who was the only member of genus Homo during nearly a million years?
According to scientists, Homo habilis lived as the only member of genus Homo for nearly a million years.
This species with a slightly larger braincase and smaller face and teeth than older hominin species is widely considered to be the first member of the genus Homo that evolved from apes. But it still retained some ape-like features, including long arms and a moderately-prognathic face.
Its name, which means ‘handy man’, was given in 1964 because this species was thought to represent the first maker of stone tools. Currently, the oldest stone tools are dated slightly older than the oldest evidence of the genus Homo.
Researchers believe that Homo habilis lived in Eastern and Southern Africa between 2,4 and 1,4 million years ago, its average height was 100-135 cm (3 ft 4 in – 4 ft 5 in) and its average weight was 32 kg (70 lbs).
Look at one of facial reconstructions of Homo habilis ⬆️.
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According to scientists, Homo habilis lived as the only member of genus Homo for nearly a million years.
This species with a slightly larger braincase and smaller face and teeth than older hominin species is widely considered to be the first member of the genus Homo that evolved from apes. But it still retained some ape-like features, including long arms and a moderately-prognathic face.
Its name, which means ‘handy man’, was given in 1964 because this species was thought to represent the first maker of stone tools. Currently, the oldest stone tools are dated slightly older than the oldest evidence of the genus Homo.
Researchers believe that Homo habilis lived in Eastern and Southern Africa between 2,4 and 1,4 million years ago, its average height was 100-135 cm (3 ft 4 in – 4 ft 5 in) and its average weight was 32 kg (70 lbs).
Look at one of facial reconstructions of Homo habilis ⬆️.
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What Homo species was the first that stood fully upright and cooked its food?
As the name implies, Homo erectus (also called Homo ergaster) is the first known Homo species that stood fully upright.
Homo erectus featured other, modern human proportions distinct from those of apes: shorter arms relative to the torso, and long legs adapted for walking and running, rather than climbing trees.
Scientists found campfires and hearths near the remains of Homo erectus, suggesting they were also the first humans to dabble with cooking — a uniquely human activity that gave access to easily digestible food, allowing brains and bodies to grow.
Researchers believe that Homo erectus was a very successful species that lived in Africa and in Asia between 1,89 million and 110,000 years ago, its average height was 145-185 cm (4 ft 9 in – 6 ft 1 in) and its average weight was 40-68 kg (88-150 lbs).
Look at one of facial reconstructions of Homo Erectus ⬆️.
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As the name implies, Homo erectus (also called Homo ergaster) is the first known Homo species that stood fully upright.
Homo erectus featured other, modern human proportions distinct from those of apes: shorter arms relative to the torso, and long legs adapted for walking and running, rather than climbing trees.
Scientists found campfires and hearths near the remains of Homo erectus, suggesting they were also the first humans to dabble with cooking — a uniquely human activity that gave access to easily digestible food, allowing brains and bodies to grow.
Researchers believe that Homo erectus was a very successful species that lived in Africa and in Asia between 1,89 million and 110,000 years ago, its average height was 145-185 cm (4 ft 9 in – 6 ft 1 in) and its average weight was 40-68 kg (88-150 lbs).
Look at one of facial reconstructions of Homo Erectus ⬆️.
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What humans were the first to live in cold places?
Homo Heidelbergenis (sometimes referred to as Homo Rhodesiensis) was the first early human species to live in colder climates.Their short, wide bodies were likely an adaptation to conserving heat.
It lived at the time of the oldest definite control of fire and use of wooden spears, and it was the first early human species to routinely hunt large animals and to build shelters out of wood and rock.
Researchers believe that Homo Heidelbergensis lived in Africa, in Europe and possibly in Asia between 700,000 and 200,000 years ago. The average height for males and females was 175 cm (5 ft 9 in) and 157 cm (5 ft 2 in) respectively. The average weight for males and females was 62 kg (136 lbs) and 51 kg (112 lbs) respectively.
Heidelbergensis is the latinised word for 'Heidelberg', the German city where the first fossil of this species was discovered in 1907-08.
Look at one of facial reconstructions of Homo Heidelbergensis ⬆️.
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Homo Heidelbergenis (sometimes referred to as Homo Rhodesiensis) was the first early human species to live in colder climates.Their short, wide bodies were likely an adaptation to conserving heat.
It lived at the time of the oldest definite control of fire and use of wooden spears, and it was the first early human species to routinely hunt large animals and to build shelters out of wood and rock.
Researchers believe that Homo Heidelbergensis lived in Africa, in Europe and possibly in Asia between 700,000 and 200,000 years ago. The average height for males and females was 175 cm (5 ft 9 in) and 157 cm (5 ft 2 in) respectively. The average weight for males and females was 62 kg (136 lbs) and 51 kg (112 lbs) respectively.
Heidelbergensis is the latinised word for 'Heidelberg', the German city where the first fossil of this species was discovered in 1907-08.
Look at one of facial reconstructions of Homo Heidelbergensis ⬆️.
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How big is the world’s largest cruise ship?
🛳 The Icon of the Seas ⬆️ is considered to be the largest cruise ship in the world at the moment.
🛳 It embarked on its maiden voyage, on January 27, 2024, from the Port of Miami.
🛳 It runs nearly 365 meters (1,200 feet) from bow to stern.
🛳 The Icon of the Seas can carry up to 7,600 passengers and 2,350 crew members.
🛳 The ship has:
2️⃣0️⃣ decks
6️⃣ waterslides
7️⃣ swimming pools, including the first cantilevered infinity pool at sea and the largest swimming pool at sea - the 151,416-litres Royal Bay
1️⃣ ice-skating rink, which is the largest ice arena at sea (Absolute Zero, where guests can skate or watch a performance).
1️⃣ theater
more than 4️⃣0️⃣ restaurants, bars and lounges
🛳 It is powered by six dual-fuel engines, which can be powered by liquefied natural gas (LNG).
❗️ Some experts worry:
▪️LNG-powered ships increase methane emissions
▪️vacationers generate eight times more carbon on a cruise than they do on land.
Subscribe- t.me/askmenow
🛳 The Icon of the Seas ⬆️ is considered to be the largest cruise ship in the world at the moment.
🛳 It embarked on its maiden voyage, on January 27, 2024, from the Port of Miami.
🛳 It runs nearly 365 meters (1,200 feet) from bow to stern.
🛳 The Icon of the Seas can carry up to 7,600 passengers and 2,350 crew members.
🛳 The ship has:
2️⃣0️⃣ decks
6️⃣ waterslides
7️⃣ swimming pools, including the first cantilevered infinity pool at sea and the largest swimming pool at sea - the 151,416-litres Royal Bay
1️⃣ ice-skating rink, which is the largest ice arena at sea (Absolute Zero, where guests can skate or watch a performance).
1️⃣ theater
more than 4️⃣0️⃣ restaurants, bars and lounges
🛳 It is powered by six dual-fuel engines, which can be powered by liquefied natural gas (LNG).
❗️ Some experts worry:
▪️LNG-powered ships increase methane emissions
▪️vacationers generate eight times more carbon on a cruise than they do on land.
Subscribe- t.me/askmenow
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What is the longest and the heaviest self-propelled ship in history?
🚢 The supertanker TT Seawise Giant (also known as Oppama, Happy Giant, Jahre Viking, Knock Nevis, and Mont) is the longest and the heaviest self-propelled ship in history ⬆️.
🚢 Built in 1979 at the Oppama shipyard in Japan, it was originally delivered as the Happy Giant oil tanker.
🚢 After undergoing an extensive jumboization process in 1988-1989 in Hong Kong, the ship had
📍a capacity of 564,763 tons deadweight (DWT)
📍a length overall of 458.45 m (1,504.1 ft), longer than the height of many of the world's tallest buildings and 100 meters longer than the longest active cruise ship currently
📍a draft of 24.611 m (80.74 ft)
📍46 tanks
📍31,541 m2 (339,500 sq ft) of deck space
📍a rudder of 230 tons
📍 a propeller of 50 tons.
🚢 When fully loaded, her 25 meter/81 foot draft was too deep for the ship to safely navigate the relatively shallow waters.
The vessel was scrapped in 2010.
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🚢 The supertanker TT Seawise Giant (also known as Oppama, Happy Giant, Jahre Viking, Knock Nevis, and Mont) is the longest and the heaviest self-propelled ship in history ⬆️.
🚢 Built in 1979 at the Oppama shipyard in Japan, it was originally delivered as the Happy Giant oil tanker.
🚢 After undergoing an extensive jumboization process in 1988-1989 in Hong Kong, the ship had
📍a capacity of 564,763 tons deadweight (DWT)
📍a length overall of 458.45 m (1,504.1 ft), longer than the height of many of the world's tallest buildings and 100 meters longer than the longest active cruise ship currently
📍a draft of 24.611 m (80.74 ft)
📍46 tanks
📍31,541 m2 (339,500 sq ft) of deck space
📍a rudder of 230 tons
📍 a propeller of 50 tons.
🚢 When fully loaded, her 25 meter/81 foot draft was too deep for the ship to safely navigate the relatively shallow waters.
The vessel was scrapped in 2010.
Subscribe- t.me/askmenow
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