Q3. This question is designed so that every student visualises and resolves x-y, r-0 and n-t vectors. This is an essential part of many problem solving questions. Each individual should solve one different problem from the below scenarios (given by the columns in the table), up to the number of students in your group.
Q3. This question is designed so that every student visualises and resolves x-y, r-0 and n-t vectors. This is an essential part of many problem solving questions. Each individual should solve one different problem from the below scenarios (given by the columns in the table), up to the number of students in your group.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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![Q3. This question is designed so that every student visualises and resolves x-y, r-0 and n-t
vectors. This is an essential part of many problem solving questions. Each individual should
solve one different problem from the below scenarios (given by the columns in the table),
up to the number of students in your group.
Given the following:
Not to scale
AY
Student
r (m)
$ (*)
Speed
m/s
ax m/s?
5
55
2
Path of motion
40m
-2
30m
Origin
Figure 3: Known motion, fixed origin
(a)
Calculate by hand graphically and numerically the x and y components of the
position of the object for your instant.
(b)
Calculate by hand graphically and numerically the x and y components of the
velocity of the object for your instant.
(c)
Calculate the normal component of the acceleration for your instant. Use this
and the supplied x component to draw the acceleration vector. Calculate the y
and tangential components. Is the motion speeding up or slowing?
(d) Calculate by hand graphically and numerically the r and 0 components of the
velocity for your instant.
(e)
Calculate by hand graphically and numerically the r and 0 components of the
acceleration for your instant.
(f)
Calculate r,r ,r ,0,0 and 0 relative to the origin for your instant. Include
units and directions as appropriate.
(g)
Summarize your results in a table.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff32ff980-475b-4060-96f0-e869f0044a34%2Fe86c4daf-503d-4972-b11d-159b8a5fd3a4%2Fz7rzt5b_processed.png&w=3840&q=75)
Transcribed Image Text:Q3. This question is designed so that every student visualises and resolves x-y, r-0 and n-t
vectors. This is an essential part of many problem solving questions. Each individual should
solve one different problem from the below scenarios (given by the columns in the table),
up to the number of students in your group.
Given the following:
Not to scale
AY
Student
r (m)
$ (*)
Speed
m/s
ax m/s?
5
55
2
Path of motion
40m
-2
30m
Origin
Figure 3: Known motion, fixed origin
(a)
Calculate by hand graphically and numerically the x and y components of the
position of the object for your instant.
(b)
Calculate by hand graphically and numerically the x and y components of the
velocity of the object for your instant.
(c)
Calculate the normal component of the acceleration for your instant. Use this
and the supplied x component to draw the acceleration vector. Calculate the y
and tangential components. Is the motion speeding up or slowing?
(d) Calculate by hand graphically and numerically the r and 0 components of the
velocity for your instant.
(e)
Calculate by hand graphically and numerically the r and 0 components of the
acceleration for your instant.
(f)
Calculate r,r ,r ,0,0 and 0 relative to the origin for your instant. Include
units and directions as appropriate.
(g)
Summarize your results in a table.
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