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What is Life

What is Life. Book A: Lesson 1.1. The Characteristics of Living Things. If you were asked to name some living things, or organisms , you might name yourself, a pet, and maybe some insects or plants.

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What is Life

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  1. What is Life Book A: Lesson 1.1

  2. The Characteristics of Living Things • If you were asked to name some living things, or organisms, you might name yourself, a pet, and maybe some insects or plants. • But you would probably not mention a moss growing in a shady spot, the mildew on bathroom tiles, or molds that grows on old bread. • But all of these things are also organisms that share six important characteristics with all other living things.

  3. The Characteristics of Living Things • All living things have : • cellular organization • contain similar chemicals, • use energy, • grow and develop, • respond to their surroundings, • and reproduce.

  4. The Characteristics of Living Things

  5. Cellular Organization • All organisms are made of small building blocks called cells. • A cell is the basic unit of structure and function in an organism. • The smallest cells are so tiny that you could fit over a million of them on the period at the end of this sentence. • To see most cells, you need a microscope—a tool that uses lenses, like those in eyeglasses, to magnify small objects.

  6. Cellular Organization • Organisms may be composed of only one cell or of many cells. • Unicellular, or single-celled organisms, include bacteria (bakteeree uh), the most numerous organisms on Earth. • A bacterial cell carries out all of the functions necessary for the organism to stay alive.

  7. Cellular Organization • Multicellular organisms are composed of many cells. • The cells of many multicellular organisms are specialized to do certain tasks. • For example, you are made of trillions of cells. • Specialized cells in your body, such as muscle and nerve cells, work together to keep you alive. • Nerve cells carry messages from your surroundings to your brain. • Other nerve cells then carry messages to your muscle cells, making your body move.

  8. The Chemicals of Life • The cells of all living things are composed of chemicals. • The most abundant chemical in cells is water. • Other chemicals called carbohydrates (kahrbohhydrayt) are a cell’s energy source. • Two other chemicals, proteins (prohteenz) and lipids (lip idz), are the building materials of cells, much like wood and bricks are the building materials of houses. • Finally, nucleic (nookleeik) acids are the genetic material—the chemical instructions that direct the cell’s activities.

  9. Energy Use • The cells of organisms use energy to do what living things must do, such as grow and repair injured parts. • An organism’s cells are always hard at work. • For example, as you read and listen to this, not only are your eyes and brain cells busy, but most of your other cells are working, too. • The cells of your stomach and intestine are digesting food. • Your blood cells are moving chemicals around your body. • If you’ve hurt yourself, some of your cells are repairing the damage.

  10. Growth and Development • Another characteristic of living things is that they grow and develop. • Growth is the process of becoming larger. • Development is the process of change that occurs during an organism’s life to produce a more complex organism. • To grow and develop, organisms use energy to create new cells.

  11. Growth and Development • Over time, a tiny acorn develops into a giant oak tree. • A great deal of energy is needed to produce the trillions of cells that make up the body of an oak tree.

  12. Response to Surroundings • If you’ve ever seen a plant in a sunny window, you may have observed that the plant’s stems have bent so that the leaves face the sun. • Like a plant bending toward the light, all organisms react to changes in their environment. • A change in an organism’s surroundings that causes the organism to react is called a stimulus (plural stimuli). • Stimuli include changes in temperature, light, sound, and other factors.

  13. Response to Surroundings • An organism reacts to a stimulus with a response—an action or change in behavior. • For example, has someone ever leapt out at you from behind a door? • If so, it’s likely that you jumped or screamed. • Your friend’s sudden motion was the stimulus that caused your startled response. • Non-living things, such as rocks, do not react to stimuli as living things do.

  14. Reproduction • Another characteristic of organisms is the ability to reproduce, or produce offspring that are similar to the parents. • Robins lay eggs that develop into young robins that closely resemble their parents. • Sunflowers produce seeds that develop into sunflower plants, which in turn make more seeds. • Bacteria produce other bacteria exactly like themselves

  15. Life Comes From Life • Today, when people observe young plants in a garden or see a litter of puppies, they know that these new organisms are the result of reproduction. • Four hundred years ago, however, people believed that life could appear suddenly from nonliving material. • For example, when people saw flies swarming around decaying meat, they concluded that flies could arise from rotting meat. • When frogs appeared in muddy puddles after heavy rains, people concluded that frogs could sprout from the mud in ponds. • The mistaken idea that living things arise from nonliving sources is called spontaneous generation.

  16. Life Comes From Life • It took hundreds of years of experiments to convince people that spontaneous generation does not occur. • In the mid-1600s, an Italian doctor, Francesco Redidesigned a controlled experiment to show that flies do not spontaneously arise from decaying meat. • In a controlled experiment, a scientist carries out two tests that are identical in every respect except for one factor. • The one factor that the scientist changes is called the manipulated variable. • The scientist can conclude that any differences in the results of the two tests must be due to the variable.

  17. R E D I ’ S E X P E R I M E N T • Redi placed meat in two identical jars. • He left one jar uncovered. • He covered the other jar with a cloth that let in air.

  18. R E D I ’ S E X P E R I M E N T • After a few days, Redi saw • maggots (young flies) on the • decaying meat in the open jar. • There were no maggots on the • meat in the covered jar.

  19. R E D I ’ S E X P E R I M E N T • Redi reasoned that flies had laid eggs on the meat in the open jar. • The eggs hatched into maggots. • Because flies could not lay eggs on the meat in the covered jar, there were no maggots there. • Therefore, Redi concluded that the decaying meat did not produce maggots.

  20. The Needs of Living Things • Imagine yourself biking through a park on a warm spring day. • As you ride by a tree, you see a squirrel running up the tree trunk. • Although it may seem that squirrels and trees do not have the same basic needs as you, they do. • All organisms need four things to stay alive. • Living things must satisfy their basic needs for: • energy • Water • Living space • stable internal conditions.

  21. The Needs of Living Things: Energy • Organisms differ in the ways they obtain their energy. • Some organisms, such as plants, capture the sun’s energy and use it along with carbon dioxide, a gas found in Earth’s atmosphere, and water to make their own food. • Organisms that make their own food are called autotrophs(aw tuhtrawfs). • Auto- means “self” and -troph means “feeder.” • Autotrophsuse the food they make as an energy source to carry out their life functions.

  22. The Needs of Living Things: Energy • Organisms that cannot make their own food are called heterotrophs(het uh rohtrawfs). • Hetero- means “other.” • A heterotroph’s energy source is also the sun—but in an indirect way. • Heterotrophseither eat autotrophs and obtain the energy in the autotroph’s stored food, or they consume other heterotrophs that eat autotrophs. • Animals, mushrooms, and slime molds are examples of heterotrophs.

  23. The Needs of Living Things: Water • All living things need water to survive—in fact, most organisms can live for only a few days without water. • Organisms need water to do things such as obtain chemicals from their surroundings, break down food, grow, move substances within their bodies, and reproduce. • In your body, for example, water makes up 92 percent of the liquid part of your blood. • The food that your cells need dissolves in the blood and is transported throughout your body.

  24. The Needs of Living Things: Living Space • All organisms need a place to live—a place to get food and water and find shelter. • Because there is a limited amount of living space on Earth, some organisms may compete for space. • Plants, for example, occupy a fixed living space. • Above the ground, their branches and leaves compete for living space with those of other plants. • Below ground, their roots compete for water and minerals.

  25. The Needs of Living Things: Living Space • Unlike plants, organisms such as animals move around. • They may either share living space with others or compete for living space.

  26. The Needs of Living Things: Stable Internal Conditions • Because conditions in their surroundings can change significantly, organisms must be able to keep the conditions inside their bodies constant. • The maintenance of stable internal conditions despite changes in the surroundings is called homeostasis(hohmee oh stay sis). • You know that when you are healthy your body temperature stays constant despite temperature changes in your surroundings. • Your body’s regulation of temperature is an example of homeostasis.

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