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Dil. HCl is added to Zn granules. How will you prove that chemical change has taken place here? Support your response with two arguments.
When dilute hydrochloric acid reacts with zinc granules, effervescence occurs due to the release of hydrogen gas, which can be tested by a pop sound. Additionally, zinc chloride solution is formed, different from the original reactants. The formation of new substances and energy release confirm thatRead more
When dilute hydrochloric acid reacts with zinc granules, effervescence occurs due to the release of hydrogen gas, which can be tested by a pop sound. Additionally, zinc chloride solution is formed, different from the original reactants. The formation of new substances and energy release confirm that a chemical change has occurred, supported by both visible gas evolution and compound formation.
See lessState the post-fertilisation changes that lead to fruit formation in plants.
Post-fertilisation, the zygote formed in the ovule develops into an embryo. The ovules mature into seeds, while the ovary enlarges and transforms into a fruit, enclosing the seeds. Other floral parts like petals and sepals usually dry and fall off. This sequence of changes ensures seed protection, dRead more
Post-fertilisation, the zygote formed in the ovule develops into an embryo. The ovules mature into seeds, while the ovary enlarges and transforms into a fruit, enclosing the seeds. Other floral parts like petals and sepals usually dry and fall off. This sequence of changes ensures seed protection, dispersal, and continuation of the plant species through fruit formation.
See lessWhat is the purpose of making urine in the human body? Name the organs that stores and releases the urine.
Urine formation helps in excretion by removing harmful nitrogenous wastes like urea, uric acid, and excess water. This process maintains the body’s chemical balance and prevents accumulation of toxins. Urine is stored in the urinary bladder until excretion, and when the bladder contracts, it is releRead more
Urine formation helps in excretion by removing harmful nitrogenous wastes like urea, uric acid, and excess water. This process maintains the body’s chemical balance and prevents accumulation of toxins. Urine is stored in the urinary bladder until excretion, and when the bladder contracts, it is released out of the body through the urethra. This ensures proper waste removal and homeostasis.
See lessWhy do arteries have thick and elastic walls whereas veins have valves?
Arteries transport blood from the heart under high pressure, so they need thick and elastic walls to resist and maintain this pressure without damage. In contrast, veins carry blood back to the heart at low pressure. To prevent blood from flowing backwards due to gravity, veins are provided with valRead more
Arteries transport blood from the heart under high pressure, so they need thick and elastic walls to resist and maintain this pressure without damage. In contrast, veins carry blood back to the heart at low pressure. To prevent blood from flowing backwards due to gravity, veins are provided with valves. Thus, arteries manage pressure, while veins ensure correct direction of blood flow.
See lessThe refractive indices of three media are given below: A ray of light is travelling from A to B and another ray is travelling from B to C. (a) In which of the two cases the refracted ray bends towards the normal? (b) In which case does the speed of light increase in the second medium? Give reasons for your answer.
(a) When a ray travels from A (refractive index 1.6) to B (1.8), it moves from a rarer to a denser medium. In this case, the speed of light decreases, causing the ray to bend towards the normal. Therefore, the bending towards the normal occurs only in the transition from medium A to medium B. (b) WhRead more
(a) When a ray travels from A (refractive index 1.6) to B (1.8), it moves from a rarer to a denser medium. In this case, the speed of light decreases, causing the ray to bend towards the normal. Therefore, the bending towards the normal occurs only in the transition from medium A to medium B.
(b) When the ray moves from B (refractive index 1.8) to C (1.5), it passes from a denser to a rarer medium. Light travels faster in a medium with lower refractive index. Thus, in medium C, with refractive index 1.5, the speed of light increases compared to medium B, because of the inverse relationship between refractive index and velocity.
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