(11) Suppose a cinder cone's height function (in meters) if given by h(x, y) = 900...
Suppose you are climbing a hill whose shape is given by the equation z = 1400-0.005x-0.01, where x, y, and z are measured in meters, and you are standing at a point with coordinates (60, 40, 1366). The positive x-axis points east and the positive y-axis points north. (a) If you walk due south, will you start to ascend or descend? ascend descend At what rate? vertical meters per horizontal meter (b) If you walk northwest, will you start to...
help.. 7. 67 points I Previaus Arawers SCacET8 146034 25 Submissions Used My Notes Ask Your Taachs Suppose you are climbing a hill whoss shape Is gven by the aquation-900-0.00x -o.oly. whera x, y, and z are measured in metons, and you are standing at a point with coordinatos (120, 80, 764). Tha positive -axls points east and tha poaitive y-axls point (a) If you walk dua south, will you start to ascand or descand? O ascent descend At what...
1. The height profile of the landscape somewhere in the Santa Monica Mountains is given by H(x.y) 5x+4xy-2y+18x-24y+99, where H is in meters, and x and y are the coordinates, in kilometers, east | and north from the trailhead, respectively (a) At what location, relative to the trailhead, is the hilltop? (b) How high is this hill? (c) In what direction is the slope steepest at a point which lies 1 km south and 1 km east of the trailhead?...
Suppose you are climbing a hill whose shape is given by the equation z = 1600 - 0.005x2 - 0.01y2, where x, y, and z are measured in meters, and you are standing at a point with coordinates (120, 80, 1464). The positive x-axis points east and the positive y-axis points north. (a) If you walk due south, will you start to ascend or descend? O ascend descend At what rate? vertical meters per horizontal meter (b) If you walk...
Suppose you first walk A = 14.0 m in a direction θ1 = 18° west of north and then B = 27.5 m in a direction θ2 = 37.0° south of west. How far are you from your starting point, and what is the compass direction of a line connecting your starting point to your final position? (If you represent the two legs of the walk as vector displacements A and B, as in the figure below, then this problem...
Suppose you first walk 6.5 m in a direction 20.0° west of north and then 18.5 m in a direction 40.0° south of west. Part (a) How far are you from your starting point in meters? Part (b) What is the angle, in degrees, of the compass direction of a line connecting your starting point to your final position measured south of west? Part (c) Repeat part (a), but for the second leg you walk 18.5m in a direction 40.0 north of east. Part...
Suppose you first walk 7.5 m in a direction 20.0 west of north and then 18 m in a direction of 40.0 degrees south of west. Please help with part (c) and (d), I keep getting it wrong and I don't understand why. Part (a) How far are you from your starting point in meters? Part (b) What is the angle, in degrees, of the compass direction of a line connecting your starting point to your final position measured south of west? Part...
Suppose you are climbing a hill whose shape is given by the equation below, where x, y, and z are measured in meters, and you are standing at a point with coordinates(60, 40, 1666). The positive x-axis points east and the positive y-axis points north.(a) If you walk due south, will you start to ascend or descend?ascenddescendAt what rate?___________(b) If you walk northwest, will you start to ascend or descend?ascenddescendAt what rate? (Round the answer to two decimal places.)_____________(c) In...
(10% ) Problem 9: Suppose you first walk 11 m in a direction 20° west of north and then 23.5 m in a direction 40° south of west as shown in the figure. 40° 20° Otheexpertta.com 25% Part (a) what is the component of your displacement in the x-direction, in meters? Grade Summary Potential 100% Submissions 0% sino cotanO asinO acosO atanO acotan0 sinho coshO tanh0 cotanho tan() π ( Attempts remaining 10 (7% per attempt) detailed view O Degrees...
You and a friend both purchase dune buggies. These off-road vehicles are excellent for driving on sand. To test out your new rides, you decide to play a game of cat and mouse in a desert with sand dunes. Both of you start in the same location. You give your friend a head start, then attempt to catch up teo them. To give you a chance, they radio you their coordinates several times You may assume that both dune buggies...