0610_w20_qp_43
A paper of Biology, 0610
Questions:
6
Year:
2020
Paper:
4
Variant:
3
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1
Plants are sensitive to light. shows a sequence of diagrams for two young plant seedlings. The seedlings were first grown in pots with light from all directions and then placed into boxes. • Seedling A was placed in a box with light entering from one side only. • Seedling B was placed in a box with no light. B A B A soil water seedling Complete by drawing seedling A and seedling B, in the boxes, to show the expected direction of their growth after one week. Plants are also sensitive to gravity. Define the term sensitivity. Explain the role of plant hormones in gravitropism. Gravitropism enables plants to survive in their environment. Explain how gravitropism enables a plant to survive. Reflexes in animals are also an example of sensitivity. Describe how reflexes in animals differ from sensitivity in plants. The pupil reflex is an example of a reflex that occurs in the eye. The eye is a sense organ. Define the term sense organ.
14. Coordination and response  →  14.5. Tropic responses
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2
A person ate a meal containing starch and fat. shows some events that occurred after ingesting this meal. P absorption of nutrients in the villi Q assimilation of fatty acids in the liver R breakdown of large food particles by the teeth S movement of small food particles through the oesophagus T secretion of amylase from the salivary glands Put the events in into the correct sequence. One has been done for you. R The stomach lining contains cells that secrete proteins. State the names of two cell structures that are involved in making or secreting proteins. State the name of one component of gastric juice and describe its functions. There are goblet cells in many parts of the alimentary canal. State the substance that goblet cells secrete. Emulsification of fats occurs in the alimentary canal. Describe the process of emulsification of fats. State the name of the organ in the alimentary canal where fats are emulsified. State the name of the structure in the villi where digested fats are absorbed.
7. Human nutrition  →  7.3. Physical digestion
7. Human nutrition  →  7.2. Digestive system
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3
is part of a food web in a rainforest. coconut tree iguana frog jaguar monkey grasshopper anaconda fruit bat banana plant Complete using the information in . The first one has been done for you. the number of different producers the number of different secondary consumers the number of different trophic levels in the food web how many different trophic levels monkeys feed at Sometimes anacondas are able to kill and eat jaguars. Using the information in , state the name of the highest possible trophic level of an anaconda that eats a jaguar. Explain why the population of anacondas is always smaller than the population of fruit bats in the food web shown in . Use the concept of energy flow in your answer. A giant rat was discovered in a natural rainforest on Vangunu Island. Scientists wanted to determine if it was a new species. Explain how scientists can use tissue samples to classify this rat. Giant rats eat coconuts. Coconuts are grown as a monoculture for human consumption. Suggest how monocultures of crop plants can result in the extinction of some animals.
19. Organisms and their environment  →  19.2. Food chains and food webs
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4
Yeast is an example of a single-celled fungus. The population of yeast can be estimated by using a light microscope to view a small sample of yeast cells in a modified microscope slide. There is a square chamber, with a specific volume, cut into the microscope slide and a grid to make it easier to count the number of cells. shows a diagram of the modified microscope slide. It also shows part of a light microscope with the modified microscope slide filled to the top with a sample of yeast cells. grid chamber The length of the sides of each small square in the grid in the modified microscope slide is 200 μm. The depth of the chamber is 100 μm. There is a total of 25 small squares in the grid. Each small square in the grid has an average of 52 yeast cells. Calculate the concentration of yeast cells per mm3. Space for working. cells per mm3 A small sample of yeast cells and 19 g per dm3 of sugar were added to a fermenter. The population size of live yeast cells and the concentration of the sugar in the fermenter were calculated every day for 10 days. The results are shown in and . time / days concentration of sugar / g per dm3 time / days population size of live yeast cells Draw an X on to indicate the position of the lag phase. Complete the line on to show the expected change in the population size of live yeast cells from day 3 to day 10. Describe and explain the changes in the concentration of sugar in the fermenter over the 10-day period. Explain why it is important that there is a tube in the fermenter that allows gases to escape.
21. Biotechnology and genetic modification  →  21.2. Biotechnology
12. Respiration  →  12.1. Respiration
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5
shows a photomicrograph of a sperm cell reaching an egg cell. Complete the sentence: A nucleus containing a single set of unpaired chromosomes in a sperm is called a nucleus. State where, in the female reproductive system, the event shown in occurs. Describe what happens from the event shown in until an embryo is formed. Some people use fertility drugs and in vitro fertilisation (IVF) to have children. Outline the use of fertility drugs and the process of IVF.
16. Reproduction  →  16.2. Sexual reproduction
16. Reproduction  →  16.4. Sexual reproduction in humans
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6
Researchers investigated four different insecticides to determine how effective they were at removing three different species of insects, A, B and C, from crop plants. They tested different concentrations of each insecticide to find the minimum dosage required to remove 95% of each insect population in two hours. Each insecticide had the same cost per gram. The results are shown in Table 6.1. Table 6.1 species of insect minimum dosage required / mg per dm3 insecticide 1 insecticide 2 insecticide 3 insecticide 4 A B C Use the information in Table 6.1 to decide which one of the four different insecticides and which dosage would be the best choice for removing insects A, B and C from a field of crop plants. Explain your choices. insecticide dosage explanation Discuss factors, other than dosage, that should be considered to prevent the insecticide damaging the environment. Describe the advantages to farmers of using insecticides. Farmers also use other chemicals on their crop plants. State the names of chemicals, other than insecticides, that are used by farmers on crop plants and explain their benefits. Insecticides are often made from chemicals that occur naturally in plants. Tobacco plants are one example of this. Suggest why having a natural insecticide is an adaptive feature of plants. Describe why people find it difficult to stop smoking tobacco. State the names of two diseases that can be caused by smoking tobacco. State the name of the component of tobacco that can damage alveoli.
20. Human influences on ecosystems  →  20.1. Food supply
21. Biotechnology and genetic modification  →  21.3. Genetic modification
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