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Spot the difference (english voc in use advanced)
Quiz by Rosita Meiluvienė
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closeness/ similarity = ... between/ with
similar in spirit/ feel (2 words)
closeness/ similarity = ... between/ with
similar in spirit/ feel (2 words)
is not equal to (4 words)
consider the same
cannot see the difference (2 words)
a group is made of several groups
different types within a group, emphasizing differences
contrasting (opinions)
differences where one might be deceived by similarities
separate
D+D LESSON 8 SPOT THE DIFFERENCEHey, Dr. Binocs! Hey there. Hello, Dr. Binocs. Hello. Oh, hello! Friends, did you spot any kinda difference between these two? I'll give you 10 points if you do! No? Well, don't worry. I'll tell you how they are different from each other. But for that I need to tell you all about the Animal Kingdom! Come with me! Zoom in! The Animal Kingdom is divided into two groups. Invertebrates and Vertebrates. And today, we will talk about the invertebrates. Animals without a backbone are called Invertebrates. Which are further classified into.. Worms! Sea Jellies! Mollusks! Anthropods! And Sponges! Now, let us explore a little into their worlds! Worms! They have long, soft bodies with no legs. Oh, and two body openings. You've seen earthworms, right? If you haven't, rush to your nearest garden! Sea Jellies! Jellyfish is a good example here. They have soft and long stinging bodies. Stinging because they use their stingers to stun their prey.. ..before pulling them into their stomach. Mollusks! They have soft and warm bodies. Many of them have hard shells, like the snail. Other examples are Octopus and Squid. Anthropods! These animals form the largest group of the Invertebrates. They have their skeleton on the outside of their bodies. Creepy crawlies such as cockroaches, spiders are anthropods. Sponges! They generally live in saltwater and don't move from place to place. They filter nutrients and tiny organisms out of water, for food. TRIVIA TIME! The Invertebrates will eat almost anything that was or is alive. 97% of all animal species are invertebrates. Well, that keeps a very tiny space for the vertebrates. So do one thing, check this video out, to know more about them! So this is me zoooming out! Tune in next time, for more fun facts.Life Processes Identify and define the seven life processes (MRS GREN). Classification Group living organisms based on observed similarities and differences. Classify vertebrates into taxonomic groups based on visible physical characteristics. Construct a dichotomous key to classify vertebrates. Cells Compare the structure of generalised plant and animal cells, and selected microbes (e.g. bacteria, fungi and Amoeba) Distinguish among cell wall, cell membrane, nucleus, cytoplasm, temporary and permanent vacuoles, mitochondrion, chloroplast, endoplasmic reticulum and ribosomes. Relate the structure of organelles to their functions; Identify specialised cells such as blood cells, ciliated epithelial cells, nerve cells, root hair cells, sperm cells and egg cells. Explain the importance of cell specialisation in multicellular organisms; include hierarchy of cells, tissues, organs; organ systems and then organism Diffusion, Osmosis, Active transport and Osmoregulation Explain the processes of diffusion, osmosis and active transport. Identify everyday instances of these processes occurring. Discuss the importance of diffusion, osmosis and active transport in living systems. Nutrition in Plants Describe the process of photosynthesis in green plants; test for end products, starch or reducing sugar (glucose). Relate the structure of the leaf of a flowering plant to its function in photosynthesis; draw and label the external features and the internal structure (cross section) of a leaf as seen in cross section under the light microscope. Nutrition in Humans Discuss the importance of a balanced diet in humans. State components of a balanced diet (carbohydrates, fats, proteins, vitamins and minerals, water and roughage and their roles) along with the results of their deficiency or surplus. Suggest dietary recommendations for treating and preventing named deficiency and physiological diseases (such as those outlined in the manual and your notes). Perform tests to distinguish among food substances - Test for proteins (Biuret), fats (grease spot), starch (iodine), reducing sugars (Benedict’s solution). The Digestive System in Humans Relate the structures of the human alimentary canal to their functions; Draw and label simple diagrams of the alimentary canal and internal structure of a tooth required. Describe mastication and the role of teeth in the mechanical breakdown of food to be included. (Compare types of teeth in humans and compare types of teeth in herbivores and carnivores.) Explain the role and importance of enzymes role of digestive enzymes in the mouth, stomach and pancreatic enzymes in the small intestine. Discuss properties of enzymes. Deduce from tables and graphs the effects of temperature and pH on enzyme activity. Experimental Skills Follow all drawing rules as outlined in the drawing skills checklist posted in the classroom (including calculation of magnification).Rainbows Introduction. When the Sun comes out after it rains, run outside. You may see a rainbow in the sky. Rainbows are tricks made by light. We can see them, but we can't touch them or walk around them. They seem to move away when we try to get close to them. Science can explain how rainbows happen. Where and When Rainbows Appear. Look around the next time you see a rainbow. The Sun will be shining from behind you. There will be rain in front of you, where you'll see the rainbow. Rainbows need water drops and sunlight to form. They can even form under a bright moon. These are called moonbows. We usually see a rainbow as a half circle. It actually forms a full circle. From the ground, we can only see the top half. How Rainbows Form. Years ago, a French scientist studied rainbows. He found that to see a rainbow, you must be in the right spot. Knowing how light moves helps explain rainbows. Think of running on land. Now think of trying to run through water. You will move more slowly through water because it is thicker than air. This pencil seems to bend where it enters the water. In the same way, light moves faster through air than through water. As the light moves through water, it slows down and bend. Rainbows form when water drops meet sunlight. The light bends when it goes into each drop. Then it reflects, or bounces, off the back of each drop. The light bends again as it leaves the drop. This happens in millions of water drops at once, making the colors of a rainbow. The Colors of the Rainbow. Sunlight is made up of many colors. Water drops split the sunlight into different colors. Splitting light makes a rainbow. You have to be in the right spot to see a rainbow. Each water drop reflects colored light at a slightly different angle. The colors of the rainbow always appear in the same order. The name ROY G. BIV can help you remember the seven main colors. They are red, orange, yellow, green, blue, indigo, and violet. Conclusion. Rain stops and the Sun comes out. A beautiful rainbow sweeps across the sky. Most people find it hard not to stop and stare when a rainbow appears. Science explains how rainbows form. Still, a rainbow is always a magical sight to see.Alaska: A special place Where can you find mountains, glaciers, and volcanoes? Alaska is the location you would visit. Alaska has different regions. In each part of the state, there are different features. Land Features The tallest mountain in the United States is in Alaska. It is called Mt. McKinley. Some people go to Alaska just to climb it. Alaska also has the biggest glaciers in all of the United States. Glaciers are made when one layer of snow falls on top of another. The snowfall becomes very thick. It turns to ice. The growth of a glacier takes many years to form. Temperature Changes Alaska has different temperatures. Northern Alaska is called the Arctic region. The temperatures are much colder than inside your freezer. The ground, lakes, and rivers are almost always frozen. As a result, most people live in the south of Alaska. It is warmer there. Crops grow well in the rich soil there. Animals Alaska has many different animals. You may spot a walrus or polar bear among the glaciers. You can see a black or brown bear fishing in a river or stream. In another region, you can see a moose or caribou. Daylight and Darkness The seasons are special here, too. In summer, people celebrate the mild temperate weather. These lively people also celebrate the sunlight because the sun does not set for many days. In one village, the Sun doesn't set for more than 80 days! You might be in bed and still see the sun shining. In winter, the Sun doesn't rise in some places in Alaska. These places have more than 60 days of winter darkness. You could have afternoon soccer practice in the dark! You might think this would be eerie, but Alaskans don't think this is weird. They are used to the dark winter days. Alaska is a very interesting place to live!Model Rockets Liftoff! Three... two... one... liftoff! A model rocket shoots into the sky. The rocket can fly up to 1,500 feet (457 m) high! Watching these small rockets fly can be fun and exciting. Model rockets aren't just for fun, though. They also teach us about science and space. The History of Rockets. People in China invented rockets about eight hundred years ago. They filled tubes with gunpowder and shot them at their enemies. Later, scientists built rockets that could go into space. Starting in the 1950s, people began building model rockets for fun. Parts of a Model Rocket. A model rocket kit comes with all the parts a rocket needs. A model rocket's body is a long tube made of cardboard or plastic. The nose cone fits into the top of the tube. The size and shape of a rocket's body and nose cone can change how it flies. Fins help the rocket fly straight. The engine burns fuel to push the rocket into the air. A parachute helps the rocket fall safely back to Earth. People like to make their rockets look great. Many people paint their rockets with different colors and designs. Every rocket is one of a kind! At the Launchpad. The only place to launch a rocket is in an open space. The launch area needs to be far away from people and buildings. A large field or a playground is a good spot. First, set up the launchpad. Place the rocket over the guide wire on the pad. The guide wire keeps the rocket pointing straight up. A girl connects the wire that will allow the controller to start the rocket engine. when it lifts off. Connect the launch controller to the rocket engine. Then step back and press the button on the controller to start the engine. Whoosh! The rocket flies up and away. Clubs and Competitions. People who fly model rockets often join model rocket clubs. Schools or hobby groups can have information about model rocket clubs. A science center or museum might have a model rocket club, too. Many people enter model rocket competitions. They set off rockets and see which one flies the highest and the fastest. Model rocket competitions are held all over the world. In the United States, students between twelve and eighteen can enter the Team America Rocketry Challenge. Every spring, one hundred teams compete to become the best in the country. The winners go on to compete against other teams from around the world. Model rockets are a fun way to learn about science. Who knows how high a model rocket can take your imagination?SPOT THE SCAM!Spot the nouns!