Concentration ôf a Gas and Global Temperature selected years. Shown on the scatter plot is a line that passes through or near the six points. Use this line to answer the questions in parts a. to d. (A calculator is recommended.) AY 58.2- * 58.0- 578 a. Use the two points whose coordinates are shown on the graph to write the point-slope form of the line that models the average global temperature, y, for an atmospheric gas concentration of x parts per million. 57.6 57.4- The point-slope form of the equation is (Simplify your answer. Use integers or decimals for any numbers in the equation. Round to two decimal places as needed.) 57.2- 57.0- b. Write the equation from part (a) in slope-intercept form. Use function notation. 56.8 310 320 330 340 350 360 370 380 390 Average Concentration of a Gas Using function notation, the slope-intercept form of the equation is f(x) =| (Simplify your answer. Use integers or decimals for any numbers in the equation. Round to two decimal places as needed.) c. The preindustrial concentration of atmospheric gas was 280 parts per million. Use the model from part (b) to project the average global temperature if gas concentration doubles from the preindustrial level to 560 parts per million. If gas concentration doubles from the preindustrial level to 560 parts per million, the projected average global temperature will be F. (Use the answer from part b to find this answer. Type an integer or a decimal.) Average Global Temperature in D egre es

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The scatter plot gives the average atmospheric concentration of a gas and the average global temperature for six selected years. Shown on the scatter plot is a line that passes through or near the six points. Use this line to answer the questions in parts a. to d. (A calculator is recommended.) Concentration of a Gas and Global Temperature 58.2- 58.0- 370p7.07) 57.8 a. Use the two points whose coordinates are shown on the graph to write the point-slope form of the line that models the average global temperature, y, for an atmospheric gas concentration of x parts per million. 57.6- 57.4- The point-slope form of the equation is (Simplify your answer. Use integers or decimals for any numbers in the equation. Round to two decimal places as needed.) 57.24 (327.51.07) 57.0- b. Write the equation from part (a) in slope-intercept form. Use function notation. 56.8+ 310 320 330 340 350 360 370 380 390 Average Concentration of a Gas Using function notation, the slope-intercept form of the equation is f(x) =| (Simplify your answer. Use integers or decimals for any numbers in the equation. Round to two decimal places as needed.) c. The preindustrial concentration of atmospheric gas was 280 parts per million. Use the model from part (b) to project the average global temperature if gas concentration doubles from the preindustrial level to 560 parts per million. gas concentration doubles from the preindustrial level to 560 parts per million, the projected average global temperature will be °F. (Use the answer from part b to find this answer. Type an integer or a decimal.) If *** Average Global Temperature in Degrees