Part E: VectorsMindBook decides to diversify their portfolio and invest in the “RoboMap" technology which is a robot that mapsdifferent types of territories. The new CEO is trying to make some drastic changes to some of the software andhardware systems in the new version of the robot. You have been hired by the opposing faction in the board tolead an investigation on how the performance of the robot is affected by the new proposed changes.a) The first system that you will test is the navigation system. The robot maps the territory by calculatingdistances and angles whilst moving between various locations. It then stores on its system the shortestdirect path from initial location to the intended target. During the test the robot navigates around amuddy surface in the following path: 55cm [NW] and then moves 45cm [S30°W]. The robot sends backto the server the following overall shortest path: 70cm [W10°S]. Use triangle or parallelogram method toverify the precision of the robot's navigationsystem.Diagram not to scaleb) The next test involves the performance of the new battery. The robot encounters an obstacle on hisjourney. Using its arm it applies a force of 35N at an angle of 25° below horizontal and is able todisplace the object for 20m in a time of 65s. At the beginning of the test the battery's is displaying a totalstored energy (ability to perform mechanical work) of 2500 Nm. What would be the remaining energydisplayed at the end of the test? Useful formula: AE = W (change in available energy is equal to thework done) c) The robot is also able to lift itself by pushing its arm against the ground in a rotational motion around anaxis at the back wheel. This is useful to move on top of obstacles encountered during exploration. Therobot applies a force [10,5,15] at a point where the arm vector is [-5,2,3]. Determine the torque vector.Diagram for illustration purposes onlyd) One exploratory mapping session for a 1m by 1m can last 5 minutes. The new mapping system shouldbe able to handle absolute coordinates in space as well. That is the compass directions might not beavailable. This mapping system uses cartesian system using as origin (0,0,0) the landing site. The robotstarts the exploration at the point (1, 2, -3) and ends the exploration at the point (2, 0, 1). Describe thetrajectory of the move using the equation of line between the starting and the final location of the robot.Diagram for illustrațion purposes only

a) The first system that you will test is the navigation system. The robot maps the territory by calculating distances and angles whilst moving between various locations. It then stores on its system the shortest direct path from initial location to the intended target. During the test the robot navigates around a muddy surface in the following path: 55cm [NWM] and then moves 45cm [S30°W]. The robot sends back to the server the following overall shortest path: 70cm [W10°S]. Use triangle or parallelogram method to verify the precision of the robot's navigation

a) The first system that you will test is the navigation system. The robot maps the territory by calculating distances and angles whilst moving between various locations. It then stores on its system the shortest direct path from initial location to the intended target. During the test the robot navigates around a muddy surface in the following path: 55cm [NWM] and then moves 45cm [S30°W]. The robot sends back to the server the following overall shortest path: 70cm [W10°S]. Use triangle or parallelogram method to verify the precision of the robot's navigation

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

See similar textbooks

Similar questions

Question of 7.2(b) Please answer fast
1. What is the answer? Use the given-required-solution format. Answer step-by-step and use a table if needed. Explain the solution. Simplify your answer.
Problem 2. An engineer wanted to know the length of a road. He asked his aide to hold a rod at the end of the road while he set up the transit at the other end. The upper and lower stadia hair readings were observed as 3.750 m and 0.320 m, respectively. If the stadia interval factor is 100, and the instrument constant is zero, determine the length of the road.
When using an optical instrument, such as an Automatic Level, you should focus on: Question 11Select one: A. The image B. The cross hairs Incorrect C. The mirrors D. Both a and b
The surveyor has a pace factor of 0.850 m/pace. He/she performed five trials along a 90 - m course on fairly level ground. Determine the unknown no. of paces conducted if the data from the four (4) trials in strides are as follows: 52, 53, 52.5, 53.5. а. 54 b. 53.4 c. 53.7 d. 53
Calculate the flight height above average terrain that is required to obtain vertical photographs at an average scale of S if the camera focal length is f for the following data: Part A S = 1 : 6500; f = 164.60 mm Express your answer to four significant figures. H = Submit Part B IVE ΑΣΦ ↓↑ vec H = My Answers Give Up S = 1 : 9500; f = 88.60 mm Express your answer to four significant figures. ΫΠ ΑΣΦ ↓↑ vec ? ft ft
Survey
Q- A photographic survey is carried out to a scale of 1: 20000. A camera with a wide angle lens of f = 170 mm was used with 25 cm × 25 cm plate size for a net 65% overlap along the line of flight. What is the error in height given by an error of 0.15 mm in measuring the parallax of the point ?
Please solve and choose the correct answer in the choices below I'll rate!
From the figure: a) Draw the Gratt Chart with Nodes b) Draw the Critical Path