Year 5 Exam  >  Year 5 Tests  >  Learn with Fun: Test Your Knowledge  >  Science Knowledge - 3 - Year 5 MCQ

Science Knowledge - 3 - Year 5 MCQ


Test Description

25 Questions MCQ Test Learn with Fun: Test Your Knowledge - Science Knowledge - 3

Science Knowledge - 3 for Year 5 2024 is part of Learn with Fun: Test Your Knowledge preparation. The Science Knowledge - 3 questions and answers have been prepared according to the Year 5 exam syllabus.The Science Knowledge - 3 MCQs are made for Year 5 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Science Knowledge - 3 below.
Solutions of Science Knowledge - 3 questions in English are available as part of our Learn with Fun: Test Your Knowledge for Year 5 & Science Knowledge - 3 solutions in Hindi for Learn with Fun: Test Your Knowledge course. Download more important topics, notes, lectures and mock test series for Year 5 Exam by signing up for free. Attempt Science Knowledge - 3 | 25 questions in 15 minutes | Mock test for Year 5 preparation | Free important questions MCQ to study Learn with Fun: Test Your Knowledge for Year 5 Exam | Download free PDF with solutions
Science Knowledge - 3 - Question 1

Which one of the following is the most suitable plant for reclamation of alkaline soil ?

Detailed Solution for Science Knowledge - 3 - Question 1
The most suitable plant for reclamation of alkaline soil is Coconut.
The reclamation of alkaline soil involves the process of restoring its fertility and improving its pH level to make it suitable for plant growth. Coconut is considered the most suitable plant for this purpose due to the following reasons:

  • Tolerance to alkaline soil: Coconut trees have a high tolerance for alkaline soil conditions. They can withstand a pH range of 5.0 to 8.0, making them well-suited for reclamation of alkaline soil.

  • Deep root system: Coconut trees have deep and extensive root systems that help them access water and nutrients from deeper soil layers. This enables them to thrive even in alkaline soil conditions where the top layers may be more affected.

  • Ability to improve soil structure: Coconut trees contribute to the improvement of soil structure by adding organic matter through fallen leaves and decaying roots. This helps in increasing soil fertility and enhancing its moisture-holding capacity.

  • Nutrient-rich fruit: Coconuts are a valuable crop that can be harvested from the trees. They are rich in essential nutrients like carbohydrates, fats, proteins, and vitamins, making them economically beneficial for farmers reclaiming alkaline soil.

  • Environmental benefits: Coconut trees provide shade, prevent soil erosion, and act as windbreaks. They also contribute to carbon sequestration and help in maintaining the overall ecological balance of the area.


Therefore, due to its tolerance to alkaline soil, deep root system, ability to improve soil structure, nutrient-rich fruit, and environmental benefits, Coconut is the most suitable plant for the reclamation of alkaline soil.
Science Knowledge - 3 - Question 2

The crop in which Bt Gene has been used for genetic transformation and which has  given rise o a controversy in India is ?

Detailed Solution for Science Knowledge - 3 - Question 2
Bt Gene and Genetic Transformation in Cotton Crop
Introduction:
The use of the Bt gene for genetic transformation in crops has been a subject of controversy in India. Among these crops, cotton stands out as the one that has received widespread attention and sparked debates.
Explanation:
Here is a detailed explanation of the use of the Bt gene in cotton and the controversy surrounding it:
1. Bt Gene:
- The Bt gene is derived from the soil bacterium Bacillus thuringiensis, which produces a protein toxic to certain insects.
- This gene has been incorporated into cotton plants through genetic transformation techniques.
2. Genetic Transformation in Cotton:
- The Bt gene is introduced into cotton plants to provide resistance against the bollworm, a major pest that damages cotton crops.
- By expressing the Bt protein, the genetically modified cotton plants have an increased ability to withstand bollworm infestation.
3. Controversy in India:
- India is one of the largest cotton-producing countries, and the adoption of genetically modified Bt cotton has been on the rise.
- The controversy surrounding Bt cotton in India mainly revolves around its socio-economic and environmental impacts.
4. Socio-economic Impact:
- Proponents argue that Bt cotton has increased yields, reduced pesticide usage, and improved farmer livelihoods.
- Critics, however, claim that the high cost of Bt cotton seeds and the need for additional inputs have led to indebtedness among farmers.
5. Environmental Impact:
- The use of Bt cotton has raised concerns about the development of resistance in target pests, such as bollworms.
- There have been reports of secondary pest outbreaks and reduced biodiversity due to the dominance of Bt cotton.
Conclusion:
In conclusion, the crop in which the Bt gene has been used for genetic transformation and has given rise to controversy in India is cotton. The use of genetically modified Bt cotton has sparked debates regarding its socio-economic impact on farmers and its potential environmental consequences.
1 Crore+ students have signed up on EduRev. Have you? Download the App
Science Knowledge - 3 - Question 3

Children confined to closed dark rooms are most likely to suffer from ?

Detailed Solution for Science Knowledge - 3 - Question 3
Children confined to closed dark rooms are most likely to suffer from bone deformation.
Reasoning:
When children are confined to closed dark rooms, they are deprived of sunlight and outdoor activities. Sunlight is a natural source of vitamin D, which is essential for healthy bone development. Therefore, the lack of sunlight and physical activity can lead to bone deformation in children.
Explanation:
The human body needs vitamin D to absorb calcium and promote bone health. Sunlight is the primary source of vitamin D, and it plays a crucial role in the development and maintenance of strong bones. When children are confined to closed dark rooms, they are not exposed to sunlight, leading to a deficiency of vitamin D. As a result, their bodies cannot properly absorb calcium, which can lead to weak and deformed bones.
Effects of Bone Deformation:
Bone deformation can have various negative effects on children's health and well-being, including:
1. Reduced bone strength and density: Lack of vitamin D and calcium can lead to weakened bones, making children more susceptible to fractures and injuries.
2. Skeletal deformities: Without proper bone development, children may experience skeletal deformities such as bowed legs, curvature of the spine, or abnormal growth patterns.
3. Delayed growth: Bone deformation can also affect overall growth and development in children, leading to stunted height and delayed milestones.
Prevention and Treatment:
To prevent and treat bone deformation in children confined to closed dark rooms, the following measures can be taken:
1. Increase exposure to sunlight: Encourage children to spend time outdoors and expose them to sunlight regularly, especially during the early morning or late afternoon when the sun is less intense.
2. Balanced diet: Provide a diet rich in calcium and vitamin D sources, such as dairy products, fish, eggs, and fortified foods.
3. Vitamin D supplements: Consult a healthcare professional to determine if vitamin D supplements are necessary to meet the child's daily requirements.
4. Physical activity: Encourage regular physical activity and exercise to promote bone health and development.
Conclusion:
Children confined to closed dark rooms are at risk of suffering from bone deformation due to the lack of sunlight and physical activity. It is essential to ensure that children receive sufficient exposure to sunlight, maintain a balanced diet, and engage in regular physical activity to promote healthy bone development and prevent skeletal deformities.
Science Knowledge - 3 - Question 4
Fish and sea foods are very rich in ?
Science Knowledge - 3 - Question 5
WIDAL test is required for the diagnosis of ?
Detailed Solution for Science Knowledge - 3 - Question 5
WIDAL Test for the Diagnosis of Typhoid
The WIDAL test is a diagnostic tool used to detect the presence of antibodies in the blood that are specific to the bacteria Salmonella typhi, which causes typhoid fever. It is commonly used in the diagnosis of typhoid and is based on the principle of agglutination.
How does the WIDAL test work?
The WIDAL test works by mixing a patient's blood sample with specific antigens derived from Salmonella typhi. If the patient has been exposed to the bacteria and has developed antibodies against it, a visible reaction occurs, indicating a positive result for typhoid fever.
When is the WIDAL test required?
The WIDAL test is required in cases where typhoid fever is suspected based on the patient's symptoms, such as high fever, abdominal pain, and diarrhea. It is also useful in identifying carriers of the bacteria who may not show any symptoms but can spread the infection to others.
Limitations of the WIDAL test
- The WIDAL test should not be used as the sole diagnostic tool for typhoid fever. It is often used in conjunction with other tests, such as blood cultures or polymerase chain reaction (PCR) tests, for accurate diagnosis.
- The test may produce false-positive results in individuals who have previously been vaccinated against typhoid or have had a past infection.
- False-negative results can occur in the early stages of the disease when the antibody levels may not be sufficient to be detected by the test.
In conclusion, the WIDAL test is specifically required for the diagnosis of typhoid fever. However, it should be interpreted in conjunction with other clinical findings and tests for an accurate diagnosis.
Science Knowledge - 3 - Question 6
Which one of the following is known as first line of defence for the body ?
Detailed Solution for Science Knowledge - 3 - Question 6
First Line of Defense for the Body: Skin
- The skin is the largest organ of the body and serves as the first line of defense against pathogens and harmful substances. It acts as a physical barrier between the external environment and the internal organs.
- The skin consists of multiple layers that provide protection against infection and injury. The outermost layer, called the epidermis, is made up of tightly packed cells that form a waterproof barrier, preventing microbes from entering the body.
- The skin also produces oils and sweat, which contain antimicrobial properties that help inhibit the growth of bacteria and fungi on the skin's surface.
- In addition to its physical and chemical defenses, the skin also plays a role in immune response. It contains specialized immune cells, such as Langerhans cells, which help identify and destroy foreign invaders.
- Any breach in the skin, such as a cut or wound, can compromise its protective function and increase the risk of infection. Therefore, maintaining healthy skin and promptly addressing any injuries is essential for optimal defense against pathogens.
- While white blood cells (WBCs) and antibodies are important components of the immune system, they are not considered the first line of defense. WBCs are involved in the body's immune response, while antibodies are produced by the immune system in response to specific pathogens.
- Nails, on the other hand, do not play a significant role in the body's defense against pathogens. They primarily serve as protective coverings for the fingertips.
- Overall, the skin's physical, chemical, and immune defenses make it the first line of defense for the body, providing vital protection against pathogens and maintaining overall health.
Science Knowledge - 3 - Question 7
The yellow color of Yolk is due to the presence of ?
Detailed Solution for Science Knowledge - 3 - Question 7
Explanation:
The yellow color of yolk is due to the presence of Riboflavin. Here is a detailed explanation:
- The yolk is the yellow part of an egg that contains the egg's nutrients and provides nourishment to the developing embryo.
- Riboflavin, also known as vitamin B2, is a water-soluble vitamin that is naturally present in many foods. It is essential for the body's growth and overall health.
- Riboflavin is responsible for the yellow color of the yolk. It is a pigment that absorbs and reflects certain wavelengths of light, giving the yolk its characteristic yellow hue.
- The concentration of riboflavin in the yolk can vary depending on the diet of the hen that laid the egg. Hens that are fed a diet rich in riboflavin will produce eggs with a deeper yellow color.
- Riboflavin is not only responsible for the color of the yolk but also plays a crucial role in various biological processes, including energy production, metabolism, and the maintenance of healthy skin, eyes, and nervous system.
- It is important to note that the yellow color of the yolk is not solely due to riboflavin. Other compounds, such as carotenoids, also contribute to the coloration of the yolk. However, riboflavin is a major contributor to the yellow color.
Key Points:
- The yellow color of yolk is due to the presence of Riboflavin.
- Riboflavin is a water-soluble vitamin that absorbs and reflects certain wavelengths of light, giving the yolk its yellow hue.
- The concentration of riboflavin in the yolk can vary depending on the hen's diet.
- Riboflavin is essential for the body's growth and overall health.
- It plays a role in energy production, metabolism, and the maintenance of healthy skin, eyes, and nervous system.
Science Knowledge - 3 - Question 8
The slurry of bio-gas plant is an enriched manure as it is vary rich in oxygen & ..... ?
Detailed Solution for Science Knowledge - 3 - Question 8
Explanation:
The slurry of a bio-gas plant is an enriched manure that is rich in oxygen and various nutrients. Here's a detailed explanation of why option B - Sulphur and Nitrogen - is the correct answer:
1. Bio-Gas Plant Slurry:
- The slurry is a byproduct of the bio-gas plant, which produces biogas through the decomposition of organic matter.
- It is a mixture of organic waste, water, and bacteria.
2. Oxygen Content:
- The slurry of a bio-gas plant is indeed rich in oxygen due to the presence of water and the process of decomposition.
- Oxygen is a key component required for the growth and survival of various organisms.
3. Nutrient Enrichment:
- The slurry of a bio-gas plant is also enriched with various nutrients that are essential for plant growth and soil fertility.
4. Sulphur and Nitrogen:
- Sulphur and Nitrogen are two important nutrients present in the slurry.
- Sulphur is necessary for the synthesis of proteins and enzymes, and it also plays a role in the formation of chlorophyll.
- Nitrogen is a crucial component of amino acids, proteins, and nucleic acids, which are essential for plant growth and development.
5. Other Nutrients:
- While the slurry may contain other nutrients as well, such as phosphorus, potassium, zinc, aluminum, boron, and potash, they are not specifically mentioned in the question.
- Phosphorus and potassium are commonly found in manure and are essential for plant growth.
- Zinc and aluminum are trace elements that plants require in small amounts.
- Boron and potash are also important nutrients for plant development.
Conclusion:
In conclusion, the slurry of a bio-gas plant is an enriched manure that is rich in oxygen and various nutrients. While it may contain other nutrients, the question specifically mentions sulphur and nitrogen as the correct answer.
Science Knowledge - 3 - Question 9
The most economical process of increasing the nutritive value of foodgrains is ?
Detailed Solution for Science Knowledge - 3 - Question 9
The most economical process of increasing the nutritive value of foodgrains is milling.
Explanation:
Milling is the process of grinding grains into flour or meal. It is a common practice in food processing and has several benefits in terms of increasing the nutritive value of foodgrains. Here are the reasons why milling is considered the most economical process:
1. Retention of nutrients: During the milling process, the outer layers of the grain, known as bran, are removed, which contains most of the fiber and nutrients. However, the endosperm, which is the starchy part of the grain, remains intact. This ensures that the essential nutrients like carbohydrates, proteins, vitamins, and minerals are retained in the final product.
2. Increase in bioavailability: Milling breaks down the cell walls of the grain, making it easier for the body to digest and absorb the nutrients. This increases the bioavailability of the nutrients, allowing the body to utilize them more efficiently.
3. Enhanced taste and texture: Milling creates a fine and uniform texture in the flour, which improves the taste and texture of the final food products. This makes it more appealing to consume and encourages a higher intake of these nutritious foods.
4. Waste reduction: By removing the outer layers of the grain, milling reduces the presence of impurities, such as dirt, husks, and insect fragments. This improves the overall quality of the foodgrains and reduces waste.
5. Cost-effectiveness: Milling is a cost-effective process as it can be done on a large scale, resulting in a high production yield. It is a standard practice in the food industry and is widely accessible, making it an economical choice for increasing the nutritive value of foodgrains.
In conclusion, milling is the most economical process of increasing the nutritive value of foodgrains. It retains essential nutrients, increases bioavailability, enhances taste and texture, reduces waste, and is cost-effective.
Science Knowledge - 3 - Question 10
GOUT, a metabolic disease occues due to the high level of ?
Detailed Solution for Science Knowledge - 3 - Question 10
GOUT, a metabolic disease occurs due to the high level of uric acid in the blood.
Explanation:
Gout is a form of arthritis caused by the accumulation of uric acid crystals in the joints. Here's a detailed explanation of why high levels of uric acid in the blood lead to gout:
1. Uric Acid:
- Uric acid is a waste product that is produced when the body breaks down purines, which are found in certain foods and are also formed by the body.
- Normally, uric acid dissolves in the blood and is excreted through the kidneys in urine. However, in some cases, the body produces too much uric acid or the kidneys cannot eliminate it efficiently.
2. Uric Acid Buildup:
- When there is an excess amount of uric acid in the blood, it can form needle-like crystals that accumulate in the joints and surrounding tissues.
- These crystals cause inflammation, leading to the symptoms of gout such as severe pain, swelling, redness, and joint stiffness.
3. Factors Contributing to High Uric Acid:
- Certain factors increase the risk of developing high levels of uric acid, including:
- Diet: Consuming foods high in purines, such as red meat, organ meats, seafood, and sugary drinks, can elevate uric acid levels.
- Obesity: Excess body weight is associated with higher uric acid levels.
- Genetics: Some people may have a genetic predisposition to produce excessive uric acid.
- Medications: Certain medications, such as diuretics, can interfere with uric acid excretion.
4. Gout Symptoms:
- Gout typically affects the joints, most commonly the big toe. The affected joint becomes tender, swollen, and extremely painful.
- Gout attacks can be triggered by factors like alcohol consumption, dehydration, injury, surgery, or certain medications.
In conclusion, gout is a metabolic disease that occurs due to the high level of uric acid in the blood. It is important to manage uric acid levels through lifestyle changes, dietary modifications, and medications to prevent gout attacks and reduce the risk of complications.
Science Knowledge - 3 - Question 11
Which one of the following is NOT correctly matched ?
Detailed Solution for Science Knowledge - 3 - Question 11
Explanation:
The correct answer is C: Louis Pasteur: Blood group.
Reasoning:
- A: Becquerel: Radioactivity - This is a correct match. Henri Becquerel was a French physicist who discovered radioactivity in 1896.
- B: Alexander Fleming: Penicillin - This is a correct match. Alexander Fleming was a Scottish biologist and pharmacologist who discovered penicillin in 1928.
- C: Louis Pasteur: Blood group - This is not a correct match. Louis Pasteur was a French chemist and microbiologist who made significant contributions to the field of microbiology, including the development of vaccines and the process of pasteurization. However, he did not discover blood groups. The discovery of blood groups is credited to Karl Landsteiner.
- D: William Harvey: Blood circulation - This is a correct match. William Harvey was an English physician who described the circulation of blood in the human body in his book "De Motu Cordis" published in 1628.
Conclusion:
Louis Pasteur is not correctly matched with blood group discovery. The correct match for blood group discovery is Karl Landsteiner.
Science Knowledge - 3 - Question 12
PCR (Polymerase chain reaction) is a technique to make copies of ? 
Detailed Solution for Science Knowledge - 3 - Question 12
PCR (Polymerase Chain Reaction)
Introduction:
PCR is a laboratory technique used to make multiple copies of a specific DNA segment. It was developed by Kary Mullis in 1983 and has revolutionized many areas of research, diagnostics, and forensic analysis.
Technique:
PCR involves a series of temperature-dependent reactions that occur in cycles. It requires a DNA template, DNA primers, nucleotides, and a DNA polymerase enzyme.
Steps involved in PCR:
1. Denaturation: The DNA template is heated to a high temperature (around 95°C), causing the double-stranded DNA to separate into single strands.
2. Annealing: The temperature is then lowered to allow the DNA primers to bind (anneal) to their complementary sequences on the DNA template.
3. Extension: The temperature is raised slightly, and the DNA polymerase enzyme synthesizes new DNA strands by extending from the primers. This step results in the amplification of the DNA segment of interest.
4. Cycling: The denaturation, annealing, and extension steps are repeated for multiple cycles (usually 20-40 cycles). Each cycle doubles the amount of DNA, resulting in exponential amplification.
Applications:
PCR is a versatile tool used in various fields, including:
- Research: PCR enables the cloning and sequencing of specific DNA segments, allowing the study of genes and genetic variations.
- Medical diagnostics: PCR can identify infectious agents, genetic diseases, and detect mutations associated with cancer.
- Forensic analysis: PCR is used to analyze DNA evidence from crime scenes and establish genetic profiles of individuals.
- Genetic engineering: PCR is vital in the production of transgenic organisms, gene therapy, and DNA fingerprinting.
Conclusion:
PCR is a powerful technique that allows the amplification of specific DNA segments. It is widely used in research, diagnostics, and forensic analysis. The ability to make multiple copies of DNA has revolutionized various fields and has significantly contributed to scientific advancements.
Science Knowledge - 3 - Question 13
The branch of science dealing with the improvement of human race is ?
Detailed Solution for Science Knowledge - 3 - Question 13
The branch of science dealing with the improvement of the human race is Eugenics.
Eugenics is the study of or belief in the possibility of improving the traits of the human species or a human population, especially by such means as discouraging reproduction by persons having genetic defects or presumed to have inheritable undesirable traits (negative eugenics) or encouraging reproduction by persons presumed to have inherited desirable traits (positive eugenics).
Key Points:
- Eugenics is a branch of science that focuses on improving the genetic quality of the human population.
- It involves the study and application of methods aimed at enhancing desirable traits and reducing undesirable traits.
- Eugenics can be divided into two categories: positive eugenics and negative eugenics.
- Positive eugenics involves promoting reproduction among individuals with desirable traits to improve the genetic quality of the population.
- Negative eugenics, on the other hand, aims to discourage reproduction among individuals with genetic defects or undesirable traits.
- The concept of eugenics has faced significant ethical controversies throughout history, as it raises concerns about discrimination, human rights, and the potential for abuse.
- The field of eugenics gained prominence in the early 20th century but fell out of favor due to its association with Nazi Germany's policies of racial purity.
- Despite the controversy, aspects of eugenics continue to be studied and debated in fields such as genetics, reproductive technologies, and bioethics.
- It is important to approach the topic of eugenics with caution and consider the ethical implications and potential consequences of its implementation.
Science Knowledge - 3 - Question 14
The main pollination agent in the case of maze plant is ?
Detailed Solution for Science Knowledge - 3 - Question 14
Answer: D. Winds
- Maze plants are typically pollinated by wind, as they produce large amounts of pollen that can be easily carried by air currents.
- Wind pollination, also known as anemophily, is common in plants that do not produce showy flowers or rely on specific pollinators for reproduction.
- Unlike bird-pollinated or insect-pollinated plants, maze plants do not need to attract pollinators with bright colors or nectar rewards.
- The male flowers of a maze plant produce large amounts of lightweight pollen that is easily dispersed by the wind.
- The wind carries the pollen grains from the male flowers to the female flowers, allowing for cross-pollination and fertilization to occur.
- Because maze plants rely on wind for pollination, they often have tall, upright stems that allow the wind to easily carry the pollen from one plant to another.
- Additionally, maze plants often have long, feathery stigmas that can capture airborne pollen grains.
- While birds, insects, and rodents may visit maze plants, they are not the main pollination agents for these plants.
- In conclusion, the main pollination agent for maze plants is wind, as it efficiently carries and disperses their pollen for successful reproduction.
Science Knowledge - 3 - Question 15
Spiders and scorpions belongs to the same class of Antropods as are ? 
Detailed Solution for Science Knowledge - 3 - Question 15
Spiders and scorpions belong to the same class of Arthropods as:
- Beetle and locusts: This is incorrect. Beetles and locusts belong to the class Insecta, while spiders and scorpions belong to the class Arachnida.
- Crabs and lobsters: This is incorrect. Crabs and lobsters belong to the class Crustacea, while spiders and scorpions belong to the class Arachnida.
- Centipedes and millipedes: This is incorrect. Centipedes and millipedes belong to the class Chilopoda and Diplopoda, respectively, while spiders and scorpions belong to the class Arachnida.
- Mites and ticks: This is correct. Mites and ticks belong to the class Arachnida, just like spiders and scorpions.
Explanation:
- Arthropods are a large group of invertebrate animals that have a segmented body, jointed appendages, and an exoskeleton.
- Spiders, scorpions, mites, and ticks all belong to the class Arachnida within the phylum Arthropoda.
- Arachnids are characterized by having two main body regions, the cephalothorax and the abdomen, as well as eight legs.
- While spiders and scorpions are more commonly known, mites and ticks are smaller arachnids that are often parasitic or feed on dead organic matter.
- All four of these arachnids play important roles in ecosystems and can be found in various habitats around the world.
In conclusion, spiders and scorpions belong to the same class of Arthropods as mites and ticks.
Science Knowledge - 3 - Question 16
With reference to the plants, mucilage are ?
Detailed Solution for Science Knowledge - 3 - Question 16
Plants and Mucilage:
Mucilage is a substance that is commonly found in various plants. It is a gel-like substance that is produced by plants and serves various purposes such as water storage, seed germination, and protection against pathogens. Let's explore more about mucilage and its composition:
Composition of Mucilage:
Mucilage is primarily composed of glycoproteins. Glycoproteins are proteins that have carbohydrate chains attached to them. These carbohydrate chains play a crucial role in the formation of the gel-like consistency of mucilage. The glycoproteins in mucilage are responsible for its adhesive and thickening properties.
Function of Mucilage:
Mucilage is produced by plants in response to various environmental factors such as drought, heat, or mechanical damage. It serves several functions, including:
- Water Storage: Mucilage helps plants retain water, especially in arid or dry conditions. The gel-like substance absorbs and holds water, acting as a reservoir for the plant.
- Seed Germination: Mucilage is often present around seeds and helps in their germination. It provides a protective layer and helps in the absorption of water, promoting seedling growth.
- Protection: Mucilage can act as a physical barrier against pathogens, preventing their entry into the plant tissues. It also plays a role in wound healing and protection against herbivores.
- Lubrication: Some plants produce mucilage to reduce friction between their surfaces, such as the lining of the digestive tract or the surface of certain seeds.
In conclusion, mucilage in plants is primarily composed of glycoproteins. It serves various functions such as water storage, seed germination, protection against pathogens, and lubrication.
Science Knowledge - 3 - Question 17
Azolla used as a bio-fertilizer for rice cultivation has a symbolic relationship with ?
Detailed Solution for Science Knowledge - 3 - Question 17
Introduction:
Azolla is a small aquatic fern that is used as a bio-fertilizer for rice cultivation. It forms a symbiotic relationship with certain nitrogen-fixing bacteria that provide essential nutrients to the rice plants. One of the bacteria that have a symbolic relationship with Azolla is Anabaena.
Anabaena and Azolla:
Anabaena is a filamentous cyanobacterium that forms a symbiotic relationship with Azolla. This relationship is known as an endosymbiotic association, where Anabaena resides within special cavities in the Azolla plant.
Key Points:
Here are some key points that explain the symbolic relationship between Azolla and Anabaena:
1. Nitrogen fixation: Anabaena has the ability to fix atmospheric nitrogen into a form that can be utilized by plants. This is a crucial process for rice cultivation as it provides the necessary nitrogen for plant growth.
2. Cavities in Azolla: Azolla plants have specialized cavities called "heterocysts" that provide a suitable environment for Anabaena to live and perform nitrogen fixation.
3. Mutualistic relationship: The relationship between Azolla and Anabaena is mutualistic, meaning both organisms benefit from the association. Azolla provides a sheltered environment and a carbon source for Anabaena, while Anabaena supplies fixed nitrogen to Azolla.
4. Increased nitrogen availability: The nitrogen fixed by Anabaena in the Azolla plants is released into the surrounding water or soil when Azolla decomposes. This nitrogen becomes available for uptake by rice plants, enhancing their growth and productivity.
5. Sustainable agriculture: The use of Azolla as a bio-fertilizer reduces the reliance on synthetic fertilizers, which can have harmful environmental impacts. The symbiotic relationship between Azolla and Anabaena contributes to sustainable rice cultivation practices.
Conclusion:
The use of Azolla as a bio-fertilizer for rice cultivation is beneficial due to its symbolic relationship with nitrogen-fixing bacteria like Anabaena. This relationship ensures a sustainable supply of nitrogen for rice plants, reducing the need for synthetic fertilizers and promoting environmentally friendly agricultural practices.
Science Knowledge - 3 - Question 18
Diatom are good indicator of: .... ?
Detailed Solution for Science Knowledge - 3 - Question 18
Diatoms as Indicators of Sewage Pollution
Diatoms are single-celled algae that are commonly found in aquatic environments such as lakes, rivers, and oceans. They have a unique silica cell wall called a frustule, which makes them easily identifiable under a microscope. Diatoms are known for their sensitivity to changes in water quality, making them excellent bioindicators for various types of pollution. In this case, diatoms are good indicators of sewage pollution.
Reasons why Diatoms are Good Indicators of Sewage Pollution:
1. Sensitivity to nutrient enrichment: Sewage contains high levels of nutrients such as nitrogen and phosphorus. Diatoms thrive in these nutrient-rich conditions, leading to their proliferation in sewage-polluted water bodies.
2. Distinctive species composition: Diatoms have different species compositions depending on the water quality. In sewage-polluted waters, specific diatom species, such as Achnanthidium minutissimum and Navicula spp., are often dominant. Their presence indicates the presence of sewage pollution.
3. Tolerance to organic pollution: Sewage pollution introduces organic matter into water bodies, leading to increased levels of biochemical oxygen demand (BOD). Diatoms have varying levels of tolerance to organic pollution, with some species being more resistant than others. By observing the dominance of certain diatom species, scientists can assess the level of organic pollution present.
4. Rapid response to changes: Diatoms have a short life cycle, allowing them to respond quickly to changes in water quality. This makes them ideal indicators for detecting sewage pollution and monitoring its impact over time.
5. Wide distribution: Diatoms can be found in various aquatic environments, including freshwater and marine ecosystems. Their widespread distribution makes them valuable indicators of sewage pollution in different types of water bodies.
In conclusion, diatoms are excellent indicators of sewage pollution due to their sensitivity to nutrient enrichment, distinctive species composition, tolerance to organic pollution, rapid response to changes, and wide distribution. Monitoring diatom populations can provide valuable insights into the presence and impact of sewage pollution in aquatic environments.
Science Knowledge - 3 - Question 19
Which one of the following theories is most widely accepted for movement of water  through plants ?
Detailed Solution for Science Knowledge - 3 - Question 19
The most widely accepted theory for the movement of water through plants is Root pressure.
Explanation:
- Root pressure is the theory that suggests that water is pushed upwards through the xylem vessels of plants from the roots to the shoots.
- This theory is based on the idea that active transport and osmosis create a pressure gradient that forces water up the plant.
- Root pressure occurs when the concentration of solutes in the root cells is higher than that in the surrounding soil.
- As a result, water moves into the root cells by osmosis, creating a positive pressure.
- This positive pressure pushes water up the xylem vessels and contributes to the movement of water through the plant.
- Root pressure is most significant during periods of high water availability and low transpiration rates.
- However, it is not sufficient to explain the movement of water in tall trees, as the pressure generated by root pressure alone is not strong enough to overcome the force of gravity.
- Therefore, other theories such as cohesion-tension theory are also necessary to explain the movement of water in plants.
Summary:
The most widely accepted theory for the movement of water through plants is root pressure. This theory suggests that water is pushed upwards through the xylem vessels from the roots to the shoots. Root pressure is based on the idea of active transport and osmosis creating a positive pressure gradient. However, root pressure alone is not sufficient to explain water movement in tall trees, and other theories like cohesion-tension theory are also necessary.
Science Knowledge - 3 - Question 20
Which one of the following organisms has a role in converting nitrates to free Nitrogen ?
Detailed Solution for Science Knowledge - 3 - Question 20
Pseudomonas is the organism that has a role in converting nitrates to free Nitrogen.
Explanation:
- Nitrogen cycle: The nitrogen cycle is the process by which nitrogen is converted between its various chemical forms in the environment. It involves several steps, including nitrogen fixation, nitrification, and denitrification.
- Nitrogen fixation: Nitrogen fixation is the process of converting atmospheric nitrogen (N2) into a usable form, such as ammonia (NH3) or nitrate (NO3-), by certain microorganisms.
- Pseudomonas: Pseudomonas is a genus of bacteria that includes many species capable of nitrogen fixation. They play an important role in the nitrogen cycle by converting nitrates (NO3-) to free nitrogen (N2) gas through a process called denitrification.
- Denitrification: Denitrification is the process by which bacteria convert nitrates (NO3-) to nitrogen gas (N2) under anaerobic conditions. Pseudomonas species are known for their ability to carry out denitrification.
- Other organisms: While other organisms such as Nitrosomonas and Nitrobacteria are involved in the nitrogen cycle, they are primarily responsible for nitrification (conversion of ammonia to nitrate) rather than denitrification.
Therefore, the correct answer is A: Pseudomonas.
Science Knowledge - 3 - Question 21
The human body cowper's gland is associated with ?
Detailed Solution for Science Knowledge - 3 - Question 21
The human body Cowper's gland is associated with the Urino-genital system.
The Cowper's gland, also known as the bulbourethral gland, is a small exocrine gland found in the male reproductive system. It is located below the prostate gland and is responsible for producing a clear, slippery fluid called pre-ejaculate or Cowper's fluid.
Functions of Cowper's gland:
1. Lubrication: The Cowper's gland secretes a fluid that lubricates the urethra and the tip of the penis. This lubrication helps facilitate the passage of semen and reduces friction during sexual intercourse.
2. Neutralization of urine residue: The Cowper's gland also plays a role in neutralizing any acidic urine residue in the urethra. This helps protect the sperm from the acidic environment of the urethra and increases their chances of survival.
3. Cleansing: The Cowper's gland fluid also helps cleanse the urethra by flushing out any remaining urine or foreign particles, further preparing the urethra for the passage of sperm.
4. Protection: The fluid produced by the Cowper's gland contains enzymes that protect the sperm from any potential damage or infection that may be present in the urethra.
Summary:
The Cowper's gland is associated with the Urino-genital system in the human body. Its main functions include lubrication, neutralization of urine residue, cleansing of the urethra, and protection of the sperm.
Science Knowledge - 3 - Question 22
Which type of light is effective for Photosynthesis to occur ?
Detailed Solution for Science Knowledge - 3 - Question 22
Type of Light for Photosynthesis
Answer: B. Blue and red
Photosynthesis is the process by which plants convert light energy into chemical energy, which is then used to fuel various plant functions. Light is a crucial factor in photosynthesis, and certain colors of light are more effective than others. The type of light that is most effective for photosynthesis to occur is a combination of blue and red light.
Explanation:
To understand why blue and red light are effective for photosynthesis, it is important to know about pigments called chlorophylls, which are responsible for capturing light energy. The two main types of chlorophylls, chlorophyll a and chlorophyll b, have different absorption spectra.
1. Chlorophyll absorption:
- Chlorophyll a absorbs light most efficiently in the red and blue regions of the visible spectrum.
- Chlorophyll b absorbs light most efficiently in the blue and red-orange regions of the visible spectrum.
2. Action spectrum:
- The action spectrum of photosynthesis shows the rate of photosynthesis at different wavelengths of light.
- The action spectrum reveals that chlorophyll a and chlorophyll b have peak absorption in the blue and red regions of the spectrum.
3. Red and blue light:
- Red light (wavelengths around 660 nm) and blue light (wavelengths around 430 nm) are most efficiently absorbed by chlorophyll a and chlorophyll b.
- These wavelengths of light provide the highest energy to drive the photosynthetic reactions.
4. Other colors:
- Ultraviolet and blue light (shorter wavelengths) are also absorbed by chlorophylls but to a lesser extent.
- Green and yellow light (wavelengths around 500-600 nm) are poorly absorbed by chlorophylls and are reflected, which is why plants appear green.
In summary, blue and red light are the most effective for photosynthesis because they are absorbed most efficiently by chlorophyll a and chlorophyll b. This absorption of light energy allows plants to carry out the process of photosynthesis, producing glucose and oxygen as byproducts.
Science Knowledge - 3 - Question 23
Which one of the following enzymes can hydrolyze proteins in the stomach? 
Detailed Solution for Science Knowledge - 3 - Question 23
Enzyme that hydrolyzes proteins in the stomach:
Answer: B. Pepsin
Explanation:
Pepsin is the enzyme responsible for protein digestion in the stomach. Here is a detailed explanation:
- Protein digestion in the stomach:
- The stomach plays a crucial role in breaking down proteins into smaller peptides and amino acids.
- The enzyme responsible for this process is pepsin, which is secreted by the gastric glands in the stomach lining.
- Pepsin:
- Pepsin is an endopeptidase, meaning it breaks down proteins by cleaving peptide bonds within the protein chain.
- It is secreted in its inactive form called pepsinogen, which is activated by the acidic environment of the stomach.
- Once activated, pepsin begins to hydrolyze proteins into smaller polypeptides, facilitating further digestion.
- Other enzymes:
- Trypsin is an enzyme produced by the pancreas and acts in the small intestine to further break down proteins into smaller peptides.
- Lipase is an enzyme responsible for fat digestion.
- Amylase is an enzyme that breaks down carbohydrates.
In conclusion, the enzyme that hydrolyzes proteins in the stomach is pepsin.
Science Knowledge - 3 - Question 24
In human body the blood enters the aorta of the circulatory system from the ?
Detailed Solution for Science Knowledge - 3 - Question 24
The Blood Flow in the Circulatory System
The circulatory system is responsible for transporting blood throughout the body, delivering oxygen and nutrients to the organs and tissues. The blood flow begins in the heart, specifically in the left side of the heart, and then travels through a series of blood vessels.
1. The Heart's Role in the Circulatory System
- The heart is a muscular organ located in the chest.
- It has four chambers: two atria (left atrium and right atrium) and two ventricles (left ventricle and right ventricle).
- The atria receive blood and the ventricles pump blood out of the heart.
2. Flow of Blood in the Heart
- Deoxygenated blood from the body enters the right atrium through the superior and inferior vena cava.
- From the right atrium, the blood flows into the right ventricle.
- The right ventricle then pumps the deoxygenated blood into the pulmonary artery, which carries it to the lungs for oxygenation.
- Oxygenated blood returns from the lungs to the left atrium through the pulmonary veins.
- From the left atrium, the blood enters the left ventricle.
- Finally, the left ventricle pumps the oxygenated blood into the aorta, the largest artery in the body.
3. Blood Entry into the Aorta
- The blood enters the aorta from the left ventricle of the heart.
- The left ventricle is responsible for pumping oxygenated blood to the rest of the body.
- The aorta serves as the main artery that carries this oxygenated blood to the various organs and tissues.
Therefore, the correct answer is B: Left Ventricle, as the blood enters the aorta from the left ventricle of the heart.
Science Knowledge - 3 - Question 25
Which is iodine-deficiency disease ?
Detailed Solution for Science Knowledge - 3 - Question 25
Iodine-deficiency disease:
- The correct answer is B: Goitre.
- Goitre is a condition characterized by the enlargement of the thyroid gland, which is located in the neck.
- It is caused by an insufficient intake of iodine, a trace mineral that is essential for the production of thyroid hormones.
- Iodine deficiency is a common nutritional problem worldwide, particularly in areas where the soil is low in iodine.
- The lack of iodine in the diet leads to decreased production of thyroid hormones, which are necessary for the regulation of metabolism and growth.
- When the thyroid gland doesn't receive enough iodine, it tries to compensate by enlarging, resulting in the formation of a goitre.
- Goitre can cause a variety of symptoms, including swelling in the neck, difficulty swallowing or breathing, and hoarseness.
- In severe cases, goitre can lead to thyroid dysfunction and other complications.
- The most effective way to prevent and treat iodine deficiency and goitre is through the consumption of iodized salt or other iodine supplements.
- Adequate iodine intake is crucial for the proper functioning of the thyroid gland and overall health.
200 tests
Information about Science Knowledge - 3 Page
In this test you can find the Exam questions for Science Knowledge - 3 solved & explained in the simplest way possible. Besides giving Questions and answers for Science Knowledge - 3, EduRev gives you an ample number of Online tests for practice

Top Courses for Year 5

Download as PDF

Top Courses for Year 5