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Tue, 18 Feb 2025 06:24:15 GMT狠狠撸Share feed for 狠狠撸shows by User: VrushaliNalawadePatiEngg Mechanics#Resolution#composition#force System.pdf
/slideshow/engg-mechanics-resolution-composition-force-system-pdf/275765184
enggmechanicsresolutioncompositionforcesystem-250218062415-fe29a28a ppt on Module 1 Forse system of Engineering Mechanics subject belongs to engineering and diploma students]]>
ppt on Module 1 Forse system of Engineering Mechanics subject belongs to engineering and diploma students]]>
Tue, 18 Feb 2025 06:24:15 GMT/slideshow/engg-mechanics-resolution-composition-force-system-pdf/275765184VrushaliNalawadePati@slideshare.net(VrushaliNalawadePati)Engg Mechanics#Resolution#composition#force System.pdfVrushaliNalawadePatippt on Module 1 Forse system of Engineering Mechanics subject belongs to engineering and diploma students<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/enggmechanicsresolutioncompositionforcesystem-250218062415-fe29a28a-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> ppt on Module 1 Forse system of Engineering Mechanics subject belongs to engineering and diploma students
]]>
560https://cdn.slidesharecdn.com/ss_thumbnails/enggmechanicsresolutioncompositionforcesystem-250218062415-fe29a28a-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Unit 1. force system, solved problems on force system.pdf
/slideshow/unit-1-force-system-solved-problems-on-force-systempdf/267005456
solvedproblemsonforcesystem-240328110705-688f382f Solved problems on the Force system
engineering mechanics
applied mechanics
force
numericals for practice
parallelogram law
law of moment
moment
couple
varignon's theorem
triangle law
resultant force
magnitude
direction
composition and resolution
perpendicular component
non-perpendicular component
moment of force
force system
method of resolution
]]>
Solved problems on the Force system
engineering mechanics
applied mechanics
force
numericals for practice
parallelogram law
law of moment
moment
couple
varignon's theorem
triangle law
resultant force
magnitude
direction
composition and resolution
perpendicular component
non-perpendicular component
moment of force
force system
method of resolution
]]>
Thu, 28 Mar 2024 11:07:05 GMT/slideshow/unit-1-force-system-solved-problems-on-force-systempdf/267005456VrushaliNalawadePati@slideshare.net(VrushaliNalawadePati)Unit 1. force system, solved problems on force system.pdfVrushaliNalawadePatiSolved problems on the Force system
engineering mechanics
applied mechanics
force
numericals for practice
parallelogram law
law of moment
moment
couple
varignon's theorem
triangle law
resultant force
magnitude
direction
composition and resolution
perpendicular component
non-perpendicular component
moment of force
force system
method of resolution
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/solvedproblemsonforcesystem-240328110705-688f382f-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Solved problems on the Force system
engineering mechanics
applied mechanics
force
numericals for practice
parallelogram law
law of moment
moment
couple
varignon's theorem
triangle law
resultant force
magnitude
direction
composition and resolution
perpendicular component
non-perpendicular component
moment of force
force system
method of resolution
]]>
116050https://cdn.slidesharecdn.com/ss_thumbnails/solvedproblemsonforcesystem-240328110705-688f382f-thumbnail.jpg?width=120&height=120&fit=boundsdocumentBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Engineering Mechanics Ch 1 Force System.ppt
/slideshow/engineering-mechanics-ch-1-force-systemppt/267004864
engineeringmechanicsch1forcesystem-240328102638-50e40569 this is the PPT on first module of the engineering mechanics:
FORCE SYSTEM:
CONTENTS;
Introduction to Mechanics, Laws of mechanics, Newton's Laws, Law of Parallelogram, Law of transmissibility, Characteristics of force, System of Forces, Method of resolution and composition moment of a force,
Law of Moments, Varignon's Theorem, Problems on the moment, Resultant, Equivalent force& couple, properties of a couple
The following are the fundamental laws of mechanics:
(i) Newton鈥檚 first law
(ii) Newton鈥檚 second law
(iii) Newton鈥檚 third law
(iv) Newton鈥檚 gravitational law
(v) Law of transmissibility of forces
(vi) Parallelogram law of forces
Booster Questions???
1.What happens according to Newton if you let an untied balloon go????
2. Describe what happens if you are riding a skateboard and hit something (like a curb) with the front wheels???
3. Describe why you hold your gun next to your shoulder while deer hunting????
4. Why should we wear seatbelts 鈥� use one of Newton鈥檚 Laws in your answer?
5. How can Newton鈥檚 laws be used to explain how rockets are launched into space?
6. Explain how each of Newton鈥檚 laws affects a game of Tug of War.
Characteristics of force
Questions:
1. Define Mechanics. What are the different branches of mechanics?
2. What are the characteristics of force?
Force System
Coplanar
Concurrent
Collinear
Parallel
Like
Unlike
Non Concurrent & Non Parallel (General)
Non-coplanar
Concurrent
Collinear
Parallel
Like
Unlike
Non Concurrent & Non Parallel (General)
Forces added to obtain a single force which produces the same effect as the original system of forces.
This single force is known as Resultant force.
The process of finding the resultant force is called composition of forces.
There are two methods of finding resultant
Analytical method
Graphical method
Analytical methods are
Parallelogram law &
Method of Resolution
]]>
this is the PPT on first module of the engineering mechanics:
FORCE SYSTEM:
CONTENTS;
Introduction to Mechanics, Laws of mechanics, Newton's Laws, Law of Parallelogram, Law of transmissibility, Characteristics of force, System of Forces, Method of resolution and composition moment of a force,
Law of Moments, Varignon's Theorem, Problems on the moment, Resultant, Equivalent force& couple, properties of a couple
The following are the fundamental laws of mechanics:
(i) Newton鈥檚 first law
(ii) Newton鈥檚 second law
(iii) Newton鈥檚 third law
(iv) Newton鈥檚 gravitational law
(v) Law of transmissibility of forces
(vi) Parallelogram law of forces
Booster Questions???
1.What happens according to Newton if you let an untied balloon go????
2. Describe what happens if you are riding a skateboard and hit something (like a curb) with the front wheels???
3. Describe why you hold your gun next to your shoulder while deer hunting????
4. Why should we wear seatbelts 鈥� use one of Newton鈥檚 Laws in your answer?
5. How can Newton鈥檚 laws be used to explain how rockets are launched into space?
6. Explain how each of Newton鈥檚 laws affects a game of Tug of War.
Characteristics of force
Questions:
1. Define Mechanics. What are the different branches of mechanics?
2. What are the characteristics of force?
Force System
Coplanar
Concurrent
Collinear
Parallel
Like
Unlike
Non Concurrent & Non Parallel (General)
Non-coplanar
Concurrent
Collinear
Parallel
Like
Unlike
Non Concurrent & Non Parallel (General)
Forces added to obtain a single force which produces the same effect as the original system of forces.
This single force is known as Resultant force.
The process of finding the resultant force is called composition of forces.
There are two methods of finding resultant
Analytical method
Graphical method
Analytical methods are
Parallelogram law &
Method of Resolution
]]>
Thu, 28 Mar 2024 10:26:38 GMT/slideshow/engineering-mechanics-ch-1-force-systemppt/267004864VrushaliNalawadePati@slideshare.net(VrushaliNalawadePati)Engineering Mechanics Ch 1 Force System.pptVrushaliNalawadePatithis is the PPT on first module of the engineering mechanics:
FORCE SYSTEM:
CONTENTS;
Introduction to Mechanics, Laws of mechanics, Newton's Laws, Law of Parallelogram, Law of transmissibility, Characteristics of force, System of Forces, Method of resolution and composition moment of a force,
Law of Moments, Varignon's Theorem, Problems on the moment, Resultant, Equivalent force& couple, properties of a couple
The following are the fundamental laws of mechanics:
(i) Newton鈥檚 first law
(ii) Newton鈥檚 second law
(iii) Newton鈥檚 third law
(iv) Newton鈥檚 gravitational law
(v) Law of transmissibility of forces
(vi) Parallelogram law of forces
Booster Questions???
1.What happens according to Newton if you let an untied balloon go????
2. Describe what happens if you are riding a skateboard and hit something (like a curb) with the front wheels???
3. Describe why you hold your gun next to your shoulder while deer hunting????
4. Why should we wear seatbelts 鈥� use one of Newton鈥檚 Laws in your answer?
5. How can Newton鈥檚 laws be used to explain how rockets are launched into space?
6. Explain how each of Newton鈥檚 laws affects a game of Tug of War.
Characteristics of force
Questions:
1. Define Mechanics. What are the different branches of mechanics?
2. What are the characteristics of force?
Force System
Coplanar
Concurrent
Collinear
Parallel
Like
Unlike
Non Concurrent & Non Parallel (General)
Non-coplanar
Concurrent
Collinear
Parallel
Like
Unlike
Non Concurrent & Non Parallel (General)
Forces added to obtain a single force which produces the same effect as the original system of forces.
This single force is known as Resultant force.
The process of finding the resultant force is called composition of forces.
There are two methods of finding resultant
Analytical method
Graphical method
Analytical methods are
Parallelogram law &
Method of Resolution
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/engineeringmechanicsch1forcesystem-240328102638-50e40569-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> this is the PPT on first module of the engineering mechanics:
FORCE SYSTEM:
CONTENTS;
Introduction to Mechanics, Laws of mechanics, Newton's Laws, Law of Parallelogram, Law of transmissibility, Characteristics of force, System of Forces, Method of resolution and composition moment of a force,
Law of Moments, Varignon's Theorem, Problems on the moment, Resultant, Equivalent force& couple, properties of a couple
The following are the fundamental laws of mechanics:
(i) Newton鈥檚 first law
(ii) Newton鈥檚 second law
(iii) Newton鈥檚 third law
(iv) Newton鈥檚 gravitational law
(v) Law of transmissibility of forces
(vi) Parallelogram law of forces
Booster Questions???
1.What happens according to Newton if you let an untied balloon go????
2. Describe what happens if you are riding a skateboard and hit something (like a curb) with the front wheels???
3. Describe why you hold your gun next to your shoulder while deer hunting????
4. Why should we wear seatbelts 鈥� use one of Newton鈥檚 Laws in your answer?
5. How can Newton鈥檚 laws be used to explain how rockets are launched into space?
6. Explain how each of Newton鈥檚 laws affects a game of Tug of War.
Characteristics of force
Questions:
1. Define Mechanics. What are the different branches of mechanics?
2. What are the characteristics of force?
Force System
Coplanar
Concurrent
Collinear
Parallel
Like
Unlike
Non Concurrent & Non Parallel (General)
Non-coplanar
Concurrent
Collinear
Parallel
Like
Unlike
Non Concurrent & Non Parallel (General)
Forces added to obtain a single force which produces the same effect as the original system of forces.
This single force is known as Resultant force.
The process of finding the resultant force is called composition of forces.
There are two methods of finding resultant
Analytical method
Graphical method
Analytical methods are
Parallelogram law &
Method of Resolution
]]>
21350https://cdn.slidesharecdn.com/ss_thumbnails/engineeringmechanicsch1forcesystem-240328102638-50e40569-thumbnail.jpg?width=120&height=120&fit=boundspresentationBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Prof. V. V. Nalawade, Notes CGMI with practice numerical
/slideshow/prof-v-v-nalawade-notes-cgmi-with-practice-numerical/266635999
cgmippt-240305095124-ff418ab9 Centre of gravity is a point where the whole weight of the body is assumed to act. i.e., it is a point where entire distribution of gravitational force is supposed to be concentrated
It is generally denoted 鈥淕鈥� for all three dimensional rigid bodies.
e.g. Sphere, table , vehicle, dam, human etc
Centroid is a point where the whole area of a plane lamina is assumed to act.
It is a point where the entire length, area & volume is supposed to be concentrated.
It is a geometrical centre of a figure.
It is used for two dimensional figures.
e.g. rectangle, circle, triangle, semicircle
Centroid is a point where the whole area of a plane lamina is assumed to act.
It is a point where the entire length, area & volume is supposed to be concentrated.
It is a geometrical centre of a figure.
It is used for two dimensional figures.
e.g. rectangle, circle, triangle, semicircle
Centroid is a point where the whole area of a plane lamina is assumed to act.
It is a point where the entire length, area & volume is supposed to be concentrated.
It is a geometrical centre of a figure.
It is used for two dimensional figures.
e.g. rectangle, circle, triangle, semicircle
]]>
Centre of gravity is a point where the whole weight of the body is assumed to act. i.e., it is a point where entire distribution of gravitational force is supposed to be concentrated
It is generally denoted 鈥淕鈥� for all three dimensional rigid bodies.
e.g. Sphere, table , vehicle, dam, human etc
Centroid is a point where the whole area of a plane lamina is assumed to act.
It is a point where the entire length, area & volume is supposed to be concentrated.
It is a geometrical centre of a figure.
It is used for two dimensional figures.
e.g. rectangle, circle, triangle, semicircle
Centroid is a point where the whole area of a plane lamina is assumed to act.
It is a point where the entire length, area & volume is supposed to be concentrated.
It is a geometrical centre of a figure.
It is used for two dimensional figures.
e.g. rectangle, circle, triangle, semicircle
Centroid is a point where the whole area of a plane lamina is assumed to act.
It is a point where the entire length, area & volume is supposed to be concentrated.
It is a geometrical centre of a figure.
It is used for two dimensional figures.
e.g. rectangle, circle, triangle, semicircle
]]>
Tue, 05 Mar 2024 09:51:24 GMT/slideshow/prof-v-v-nalawade-notes-cgmi-with-practice-numerical/266635999VrushaliNalawadePati@slideshare.net(VrushaliNalawadePati)Prof. V. V. Nalawade, Notes CGMI with practice numericalVrushaliNalawadePatiCentre of gravity is a point where the whole weight of the body is assumed to act. i.e., it is a point where entire distribution of gravitational force is supposed to be concentrated
It is generally denoted 鈥淕鈥� for all three dimensional rigid bodies.
e.g. Sphere, table , vehicle, dam, human etc
Centroid is a point where the whole area of a plane lamina is assumed to act.
It is a point where the entire length, area & volume is supposed to be concentrated.
It is a geometrical centre of a figure.
It is used for two dimensional figures.
e.g. rectangle, circle, triangle, semicircle
Centroid is a point where the whole area of a plane lamina is assumed to act.
It is a point where the entire length, area & volume is supposed to be concentrated.
It is a geometrical centre of a figure.
It is used for two dimensional figures.
e.g. rectangle, circle, triangle, semicircle
Centroid is a point where the whole area of a plane lamina is assumed to act.
It is a point where the entire length, area & volume is supposed to be concentrated.
It is a geometrical centre of a figure.
It is used for two dimensional figures.
e.g. rectangle, circle, triangle, semicircle
<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/cgmippt-240305095124-ff418ab9-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Centre of gravity is a point where the whole weight of the body is assumed to act. i.e., it is a point where entire distribution of gravitational force is supposed to be concentrated
It is generally denoted 鈥淕鈥� for all three dimensional rigid bodies.
e.g. Sphere, table , vehicle, dam, human etc
Centroid is a point where the whole area of a plane lamina is assumed to act.
It is a point where the entire length, area & volume is supposed to be concentrated.
It is a geometrical centre of a figure.
It is used for two dimensional figures.
e.g. rectangle, circle, triangle, semicircle
Centroid is a point where the whole area of a plane lamina is assumed to act.
It is a point where the entire length, area & volume is supposed to be concentrated.
It is a geometrical centre of a figure.
It is used for two dimensional figures.
e.g. rectangle, circle, triangle, semicircle
Centroid is a point where the whole area of a plane lamina is assumed to act.
It is a point where the entire length, area & volume is supposed to be concentrated.
It is a geometrical centre of a figure.
It is used for two dimensional figures.
e.g. rectangle, circle, triangle, semicircle
]]>
82040https://cdn.slidesharecdn.com/ss_thumbnails/problemsonsupportreaction-230724103645-108bc478-thumbnail.jpg?width=120&height=120&fit=boundsdocumentBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Problems on lamis theorem.pdf
/slideshow/problems-on-lamis-theorempdf/259388135
problemsonlamistheorem-230724103342-635eefec These are the solved problems on Lami's theorem with some assignment questions.]]>
These are the solved problems on Lami's theorem with some assignment questions.]]>
Mon, 24 Jul 2023 10:33:42 GMT/slideshow/problems-on-lamis-theorempdf/259388135VrushaliNalawadePati@slideshare.net(VrushaliNalawadePati)Problems on lamis theorem.pdfVrushaliNalawadePatiThese are the solved problems on Lami's theorem with some assignment questions.<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/problemsonlamistheorem-230724103342-635eefec-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> These are the solved problems on Lami's theorem with some assignment questions.
]]>
55950https://cdn.slidesharecdn.com/ss_thumbnails/problemsonlamistheorem-230724103342-635eefec-thumbnail.jpg?width=120&height=120&fit=boundsdocumentBlackhttp://activitystrea.ms/schema/1.0/posthttp://activitystrea.ms/schema/1.0/posted0Equilibrium.pptx
/slideshow/equilibriumpptx-259388000/259388000
equilibrium-230724102532-a92b6333 When the condition of body is unaffected even though it is acted upon by no. of forces, it is said to be in equilibrium.
this PPT is about the general idea about Equilibrium of Forces. I will be uploading the numerical on it soon.]]>
When the condition of body is unaffected even though it is acted upon by no. of forces, it is said to be in equilibrium.
this PPT is about the general idea about Equilibrium of Forces. I will be uploading the numerical on it soon.]]>
Mon, 24 Jul 2023 10:25:32 GMT/slideshow/equilibriumpptx-259388000/259388000VrushaliNalawadePati@slideshare.net(VrushaliNalawadePati)Equilibrium.pptxVrushaliNalawadePatiWhen the condition of body is unaffected even though it is acted upon by no. of forces, it is said to be in equilibrium.
this PPT is about the general idea about Equilibrium of Forces. I will be uploading the numerical on it soon.<img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/equilibrium-230724102532-a92b6333-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> When the condition of body is unaffected even though it is acted upon by no. of forces, it is said to be in equilibrium.
this PPT is about the general idea about Equilibrium of Forces. I will be uploading the numerical on it soon.