Air pressure can be modeled by the exponential equation y = 14.5. e -0.0428 X, where x = altitude in 1000's of feet and

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Air Pressure Can Be Modeled By The Exponential Equation Y 14 5 E 0 0428 X Where X Altitude In 1000 S Of Feet And 1 (157.02 KiB) Viewed 11 times

Air Pressure Can Be Modeled By The Exponential Equation Y 14 5 E 0 0428 X Where X Altitude In 1000 S Of Feet And 2 (29.72 KiB) Viewed 11 times

Air Pressure Can Be Modeled By The Exponential Equation Y 14 5 E 0 0428 X Where X Altitude In 1000 S Of Feet And 3 (123.99 KiB) Viewed 11 times

Air Pressure Can Be Modeled By The Exponential Equation Y 14 5 E 0 0428 X Where X Altitude In 1000 S Of Feet And 4 (83 KiB) Viewed 11 times

Air Pressure Can Be Modeled By The Exponential Equation Y 14 5 E 0 0428 X Where X Altitude In 1000 S Of Feet And 5 (145.96 KiB) Viewed 11 times

Air pressure can be modeled by the exponential equation y = 14.5. e -0.0428 X, where x = altitude in 1000's of feet and y = air pressure in psi. Complete parts (a) through (e) below. (a) What is the continuous decay rate per 1000 feet? (Hint: If the rate k is a negative number, this implies a continuous decay rate with the opposite sign of k.) The air pressure is decreasing at a continuous rate of % per 1000 feet. (Round to two decimal places as needed.) (b) What is the decay rate every 1000 feet (not continuous)? (Hint: If the rate r is a negative number, this implies an annual decay rate with the opposite sign of r.) % per 1000 feet. The air pressure is decreasing at a rate of (Round to two decimal places as needed.) (c) Rewrite the equation in the form P = Po (1 + r)* OA. P=145 (1-4.28%)* OB. P=14.5 (1.0419)* OC. P=14.5 (0.9572)* OD. P= 14.5 (0.9581)* (d) What is the air pressure at 35,000 feet? psi (Round to two decimal places as needed.) (a) What is the air nraccuro at coa loval? 2 of 2 0 of 2
(e) What is the air pressure at sea level? psi (Round to one decimal place as needed.)
You deposit $550 into a savings account with an APR of 3.6%. Use the table to complete parts (a) through (b) below. 1 2 3 4 5 6 A Year B Amount O O 0 $550 1 $569.80 2 $590.31 3 $611.56 4 $633.58 (a) What recursive formula would you enter in cell B3 that could be filled down? = B$2 * 1.036 =B2 * 0.036 =B$2* 1.036^A3 O=B2 * 1.036 (b) What closed formula would you enter in cell B3 that could be filled down? =B$2 1.036^A$3 =B$2*0.036 =B$2 * 1.036^A3 =B$2* 1.036
During the worst periods of hyperinflation in a certain country, the price of food increased at a rate of 30% per month. State whether this increase was linear or exponential If your food bill was $140 in one month during this period, what was it three months later? Was the growth in inflation linear or exponential? linear O exponential What was the monthly food bill after three months? (Round to the nearest dollar as needed)
1 Air pressure can be modeled by the exponential equation y = 14.5. e -0.0428 X, where x = altitude in 1000's of feet and y = air pressure in psi. Complete parts (a) through (e) below. e (b) What is the decay rate every 1000 feet (not continuous)? (Hint: If the rate r is a negative number, this implies an annual decay rate with the opposite sign of r.) quat The air pressure is decreasing at a rate of % per 1000 feet. plete (Round to two decimal places as needed.) (c) Rewrite the equation in the form P = Po (1+r)X. nd v deled ial equa plete par hom free A. P-14.5 (1-4.28%)* OB. P=14.5 (1.0419)* OC. P=14.5 (0.9572)* OD. P=14.5 (0.9581)* cpm onli (d) What is the air pressure at 35,000 feet? psi (Round to two decimal places as needed.) (e) What is the air pressure at sea level? kv ure P at sea ut 14.7 pounds p ressure decreases psi (Round to one decimal place as needed.) Vi (0,0) More W X