Assume that the average daily temperature in Nome, Alaska is given by T(x) =-0.002(x-182)2 + 50...

The temperature at a point (x, y, z) is given by T(x, y, z) = 100e^(−x^2...

The temperature at a point (x, y, z) is given by T(x, y, z) = 100e^(−x^2 − 3y^2 − 9z^2) where T is measured in °C and x, y, z in meters. (a) Find the rate of change of temperature at the point P(2, −1, 2) in the direction towards the point (5, −2, 3). (b) In which direction does the temperature increase fastest at P? (c) Find the maximum rate of increase at P.

The temperature T of a flat sheet, at the point (?x, y) ?, is given by...

The temperature T of a flat sheet, at the point (?x, y) ?, is given by T (?x, y) ? ? x ^ 3 - 2xy + ? 2y ^ 22. a) Determine the rate of change of temperature in the direction of the vector v = (?2, −1) ?, from the point P (? − 1,2) ?. b) Calculate the highest rate of temperature growth from P (? − 1,2) ?, as well as the direction in which it...

The temperature at a point (x, y, z) is given by T(x, y, z) = 400e−x2...

The temperature at a point (x, y, z) is given by T(x, y, z) = 400e−x2 − 5y2 − 9z2 where T is measured in °C and x, y, z in meters. (a) Find the rate of change of temperature at the point P(2, −1, 2) in the direction towards the point (3, −5, 6). °C/m (b) In which direction does the temperature increase fastest at P? (c) Find the maximum rate of increase at P.

Temperatures in LA. The average daily high temperature in February in Los Angeles is 69 degrees...

Temperatures in LA. The average daily high temperature in February in Los Angeles is 69 degrees Fahrenheit with a standard deviation of 5 degrees Fahrenheit. Suppose that the temperatures in February closely follow a normal distribution. Round calculated answers to 4 decimal places. 1. What is the probability of observing an 74 degrees Fahrenheit temperature or higher in Los Angeles during a randomly chosen day in February? (?) 2. How cold are the coldest 15% of the days during February...

temperature in celsius at point (x,y) in equation. T(x,y)=50-0.003x^4-0.004y^2 a.) will temp increase in directiom of...

temperature in celsius at point (x,y) in equation. T(x,y)=50-0.003x^4-0.004y^2 a.) will temp increase in directiom of (0,10) from (-10,0) and at what rate? b.) find the vector of greatest heat increase from point (-10,0).

please show me the steps   Suppose the temperature at (x, y, z) is given by T...

please show me the steps   Suppose the temperature at (x, y, z) is given by T = xy + sin(yz). In what direction should you go from the point (1, 1, 1) to decrease the temperature as quickly as possible? What is the rate of change of temperature in this direction?

Temperatures in LA. The average daily high temperature in January in Los Angeles is 68 degrees...

Temperatures in LA. The average daily high temperature in January in Los Angeles is 68 degrees Fahrenheit with a standard deviation of 5 degrees Fahrenheit. Suppose that the temperatures in January closely follow a normal distribution. Round calculated answers to 4 decimal places. 1. What is the probability of observing an 76 degrees Fahrenheit temperature or higher in Los Angeles during a randomly chosen day in January? 2. How cold are the coldest 20% of the days during January in...

The temperature at a point (x,y,z) is given by T(x,y,z)=200e−x2−y2/4−z2/9, where T is measured in degrees...

The temperature at a point (x,y,z) is given by T(x,y,z)=200e−x2−y2/4−z2/9, where T is measured in degrees celsius and x,y, and z in meters. There are lots of places to make silly errors in this problem; just try to keep track of what needs to be a unit vector. A. Find the rate of change of the temperature at the point (0, -1, 2) in the direction toward the point (-1, 4, 2). b)In which direction (unit vector) does the temperature...

Two spacecraft are following paths in space given by r1=〈sin(t),t,t^2〉 and r2=〈cos(t),1−t,t^3〉. If the temperature for...

Two spacecraft are following paths in space given by r1=〈sin(t),t,t^2〉 and r2=〈cos(t),1−t,t^3〉. If the temperature for the points is given by T(x,y,z)=x^2y(1−z), use the Chain Rule to determine the rate of change of the difference D in the temperatures the two spacecraft experience at time t=3. (Use decimal notation. Give your answer to two decimal places.)

Two spacecraft are following paths in space given by r1=〈sin(t),t,t^2〉 and r2=〈cos(t),1−t,t^3〉. If the temperature for...

Two spacecraft are following paths in space given by r1=〈sin(t),t,t^2〉 and r2=〈cos(t),1−t,t^3〉. If the temperature for the points is given by T(x,y,z)=x^2y(8−z), use the Chain Rule to determine the rate of change of the difference D in the temperatures the two spacecraft experience at time t=1. (Use decimal notation. Give your answer to two decimal places.)