The document discusses linear motion concepts including constant velocity, constant acceleration, displacement, distance, velocity, and acceleration. It provides definitions, equations, and graphs relating position, velocity, and acceleration over time for linear motion with constant velocity and constant acceleration. Examples and references are also included.
1. The document defines key physics concepts related to forces and motion such as distance, displacement, speed, velocity, acceleration, deceleration, and their relationships.
2. Examples are provided to illustrate the concepts and distinguish between distance and displacement, as well as speed and velocity.
3. Key points are summarized such as constant acceleration resulting in increasing velocity over time, while deceleration decreases velocity over time. Zero acceleration corresponds to constant velocity.
This document discusses linear motion, forces, and momentum. It includes:
1) Equations for linear motion including displacement, velocity, acceleration, and kinematic equations.
2) Descriptions of linear motion graphs including how to determine velocity and acceleration from displacement-time, velocity-time, and acceleration-time graphs.
3) Definitions of inertia, Newton's First Law of Motion, and momentum as the product of mass and velocity.
4) The principle of conservation of momentum and descriptions of elastic, inelastic, and explosive collisions.
The document defines key terms in kinematics including displacement, velocity, speed, and acceleration. It explains that kinematics concerns motion without regard to causes, while dynamics studies forces that cause motion. The equations for uniformly accelerated motion are derived, including displacement (s = ut + 1/2at^2), velocity (v = u + at), and the timeless equation (v^2 = u^2 + 2as). It is explained these equations can only be used when acceleration is constant.
This document discusses kinematics of particles, which is the geometry of motion without considering causes of motion. It covers topics like rectilinear and curvilinear motion, determining motion given acceleration functions, uniform and accelerated rectilinear motion, and relative motion of particles. Sample problems are provided to demonstrate solving for position, velocity, acceleration and time using the kinematic equations for different types of motion like uniformly accelerated projectile motion and objects in relative motion.
1. The document defines various physics concepts including units of measurement, kinematics equations, forces and motion, energy, heat, waves, and optics.
2. Prefixes are provided for the standard form of various units including tera, giga, mega, kilo, deci, centi, and milli.
3. Formulas are given for average speed, velocity, acceleration, linear motion, momentum, impulse, work, power, and more.
4. Concepts around pressure, density, buoyancy, heat transfer, the gas laws, refraction, lenses, and telescopes are also summarized.
Chapter 12 kinematics of a particle part-iSajid Yasin
This document provides information about a dynamics course, including:
- The instructor is Engr. Sajid Yasin from the Department of Mechanical Technology at MNS UET Multan.
- Lecture times are Tuesday from 7:30-9:30 PM in Room F5 and Wednesday lab from 6:30-9:30 PM in D2.
- Required textbooks and the method of assessment including exams, quizzes, assignments, and attendance are listed.
This document summarizes key concepts about motion from a physics textbook. It defines important terms like position, motion, speed, velocity, vectors, displacement, distance, acceleration, and gravity. It provides examples of calculating speed, velocity, acceleration, and distance using the physics equations. Key points covered include the difference between speed and velocity, constant versus changing motion, and Galileo's experiments showing objects accelerate at the same rate when dropped regardless of mass.
This document contains lecture materials on engineering dynamics. It discusses kinematics concepts such as position, velocity, acceleration and their relationships. Rectilinear particle motion is analyzed using graphical and analytical methods. An example problem demonstrates applying kinematics equations to determine the velocity and time taken for a particle to travel between two points under varying acceleration. The document also discusses using graphical methods to analyze erratic or non-uniform particle motion by constructing velocity-time and acceleration-time graphs from a given position-time graph.
1. The document defines key physics concepts related to forces and motion such as distance, displacement, speed, velocity, acceleration, deceleration, and their relationships.
2. Examples are provided to illustrate the concepts and distinguish between distance and displacement, as well as speed and velocity.
3. Key points are summarized such as constant acceleration resulting in increasing velocity over time, while deceleration decreases velocity over time. Zero acceleration corresponds to constant velocity.
This document discusses linear motion, forces, and momentum. It includes:
1) Equations for linear motion including displacement, velocity, acceleration, and kinematic equations.
2) Descriptions of linear motion graphs including how to determine velocity and acceleration from displacement-time, velocity-time, and acceleration-time graphs.
3) Definitions of inertia, Newton's First Law of Motion, and momentum as the product of mass and velocity.
4) The principle of conservation of momentum and descriptions of elastic, inelastic, and explosive collisions.
The document defines key terms in kinematics including displacement, velocity, speed, and acceleration. It explains that kinematics concerns motion without regard to causes, while dynamics studies forces that cause motion. The equations for uniformly accelerated motion are derived, including displacement (s = ut + 1/2at^2), velocity (v = u + at), and the timeless equation (v^2 = u^2 + 2as). It is explained these equations can only be used when acceleration is constant.
This document discusses kinematics of particles, which is the geometry of motion without considering causes of motion. It covers topics like rectilinear and curvilinear motion, determining motion given acceleration functions, uniform and accelerated rectilinear motion, and relative motion of particles. Sample problems are provided to demonstrate solving for position, velocity, acceleration and time using the kinematic equations for different types of motion like uniformly accelerated projectile motion and objects in relative motion.
1. The document defines various physics concepts including units of measurement, kinematics equations, forces and motion, energy, heat, waves, and optics.
2. Prefixes are provided for the standard form of various units including tera, giga, mega, kilo, deci, centi, and milli.
3. Formulas are given for average speed, velocity, acceleration, linear motion, momentum, impulse, work, power, and more.
4. Concepts around pressure, density, buoyancy, heat transfer, the gas laws, refraction, lenses, and telescopes are also summarized.
Chapter 12 kinematics of a particle part-iSajid Yasin
This document provides information about a dynamics course, including:
- The instructor is Engr. Sajid Yasin from the Department of Mechanical Technology at MNS UET Multan.
- Lecture times are Tuesday from 7:30-9:30 PM in Room F5 and Wednesday lab from 6:30-9:30 PM in D2.
- Required textbooks and the method of assessment including exams, quizzes, assignments, and attendance are listed.
This document summarizes key concepts about motion from a physics textbook. It defines important terms like position, motion, speed, velocity, vectors, displacement, distance, acceleration, and gravity. It provides examples of calculating speed, velocity, acceleration, and distance using the physics equations. Key points covered include the difference between speed and velocity, constant versus changing motion, and Galileo's experiments showing objects accelerate at the same rate when dropped regardless of mass.
This document contains lecture materials on engineering dynamics. It discusses kinematics concepts such as position, velocity, acceleration and their relationships. Rectilinear particle motion is analyzed using graphical and analytical methods. An example problem demonstrates applying kinematics equations to determine the velocity and time taken for a particle to travel between two points under varying acceleration. The document also discusses using graphical methods to analyze erratic or non-uniform particle motion by constructing velocity-time and acceleration-time graphs from a given position-time graph.
This document discusses curvilinear motion and kinematics. It introduces position vectors, path coordinates, velocity vectors, and acceleration vectors for particles moving in three-dimensional space. Key concepts covered include defining the position vector r(t) from a reference point to the particle, the instantaneous velocity vector v as the time derivative of r(t), and the acceleration vector a as the time derivative of v. When working in Cartesian coordinates, the derivatives of vector components are simply the derivatives of the individual x, y, z components.
Dinamika partikel Mata Kuliah Konsep Dasar IPAlailam02
The document discusses particle dynamics and Newton's laws of motion. It defines particle dynamics as the science of forces that cause motionless particles to accelerate or decelerate. Newton's first law states that an object at rest stays at rest or an object in motion stays in motion with constant velocity unless acted upon by an external force. Newton's second law relates force, mass, and acceleration. Newton's third law states that for every action there is an equal and opposite reaction. The document also discusses concepts such as friction, circular motion, projectile motion, and the relationship between mass and weight.
Ekeeda Provides Online Civil Engineering Degree Subjects Courses, Video Lectures for All Engineering Universities. Video Tutorials Covers Subjects of Mechanical Engineering Degree.
This document summarizes key principles of Einstein's theory of special relativity, including:
1) Special relativity is based on two postulates - the principle of relativity and the constant speed of light. This leads to time dilation, length contraction, and the equivalence of mass and energy.
2) Lorentz transformations relate the coordinates of observers in different inertial reference frames and explain how the speed of light remains constant for all observers.
3) Spacetime diagrams illustrate how events that are simultaneous for one observer may not be for another due to the finite speed of light and relativity of simultaneity.
The document summarizes several methods for computing fully normalized associated Legendre functions (ALFs) for very high degrees and orders needed in applications like modeling Earth's gravity field. It describes standard forward recursion methods, modified forward methods to address numerical issues like underflow, and numerical tests comparing the precision, efficiency and accuracy of the different approaches when computing ALFs up to degree 2700.
Understanding Dynamic Programming through Bellman OperatorsAshwin Rao
Policy Iteration and Value Iteration algorithms are best understood by viewing them from the lens of Bellman Policy Operator and Bellman Optimality Operator
This document provides notes on kinematics, dynamics, and other introductory physics concepts. It includes definitions of key terms like velocity, acceleration, force, mass, weight, friction, and free body diagrams. Example problems demonstrate concepts like Newton's laws of motion applied to blocks on an inclined plane or connected by a pulley system. Key equations are presented for kinematics, dynamics, gravitational force, and friction. Exercises at the end test understanding of concepts like net force, acceleration with multiple forces, and effects of friction.
This document summarizes research on modeling wildfires and turbulent premixed combustion. It discusses how turbulence affects wildfire propagation through turbulent transport of hot air, making the fire front position random. It presents a level set method for modeling deterministic and random fire fronts, accounting for turbulence. It also discusses using a Lagrangian approach to model turbulent premixed combustion, describing how the burned mass fraction evolves due to particle motion, flame front velocity, and curvature.
Physics 504 Chapter 9 Uniform Rectilinear MotionNeil MacIntosh
This document discusses uniform rectilinear motion. It defines different types of motion including rectilinear, curvilinear, and random motion. Distance is defined as a scalar quantity representing how far an object has moved, while displacement is a vector quantity that includes both distance and direction. Uniform motion refers to motion at a constant speed in a single direction. Graphs of distance-time and velocity-time relationships are used to analyze motion. The average velocity and speed can be calculated from these graphs by determining slope.
This student worksheet is for a group project on the topic of linear motion in a Physics class during the first semester. The document provides instructions for students to read materials, discuss questions in their groups, and have one member of each group present the results of their discussion. The questions focus on distinguishing between uniform and uniformly accelerated motion, applications of each type of motion, whether free fall is uniform or accelerated, and classifying the motion of trains on tracks.
Forces cause objects to accelerate by changing their speed or direction of motion. A force can be applied to speed an object up, slow it down, or cause it to change direction as when turning a corner. Free body diagrams are drawings used to represent the different forces acting on an object, such as a football, showing the direction of each force as it is thrown, kicked, or tackled.
Kinematics is the study of linear motion. Key terms include displacement, velocity, and acceleration. Displacement is the distance from a starting point, velocity is speed in a direction, and acceleration is the rate of change of velocity. Average values are calculated by total distance or displacement over total time. Instantaneous values give a clearer picture of motion at a moment in time and can be derived from graphs of displacement, velocity, and acceleration over time. When acceleration is constant, five equations can be used to describe motion with constant acceleration.
This document outlines an experiment to study the linear motion of an object using a trolley, ticker timer, and metalized recording paper. The procedure involves connecting the components, releasing the trolley down an inclined track, and marking the recording paper with the ticker timer to obtain strips that represent the trolley's change in velocity over time. These strips are then analyzed to calculate the trolley's displacement, velocity, acceleration, and their relationships to time.
Distance is the total path length travelled, regardless of direction. Displacement describes both the distance and direction from the starting point. Speed is a scalar quantity referring to distance travelled per unit time, while velocity is a vector quantity referring to displacement per unit time, including direction. Examples show calculating distances, displacements, speeds and velocities for objects moving in one or more directions. Bearings are used to describe angular displacement from north in a clockwise direction.
The document defines and explains key kinematics concepts including speed, velocity, acceleration, uniform acceleration, and linear motion. Speed is distance over time while velocity includes direction and is a vector. Acceleration is the rate of change of velocity, calculated as the change in velocity over time. Acceleration is uniform if the rate of change is constant, while non-uniform acceleration means the rate varies over time. Velocity decreases in deceleration.
Zodiac Signs and Food Preferences_ What Your Sign Says About Your Tastemy Pandit
Know what your zodiac sign says about your taste in food! Explore how the 12 zodiac signs influence your culinary preferences with insights from MyPandit. Dive into astrology and flavors!
Unveiling the Dynamic Personalities, Key Dates, and Horoscope Insights: Gemin...my Pandit
Explore the fascinating world of the Gemini Zodiac Sign. Discover the unique personality traits, key dates, and horoscope insights of Gemini individuals. Learn how their sociable, communicative nature and boundless curiosity make them the dynamic explorers of the zodiac. Dive into the duality of the Gemini sign and understand their intellectual and adventurous spirit.
3 Simple Steps To Buy Verified Payoneer Account In 2024SEOSMMEARTH
Buy Verified Payoneer Account: Quick and Secure Way to Receive Payments
Buy Verified Payoneer Account With 100% secure documents, [ USA, UK, CA ]. Are you looking for a reliable and safe way to receive payments online? Then you need buy verified Payoneer account ! Payoneer is a global payment platform that allows businesses and individuals to send and receive money in over 200 countries.
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Part 2 Deep Dive: Navigating the 2024 Slowdownjeffkluth1
Introduction
The global retail industry has weathered numerous storms, with the financial crisis of 2008 serving as a poignant reminder of the sector's resilience and adaptability. However, as we navigate the complex landscape of 2024, retailers face a unique set of challenges that demand innovative strategies and a fundamental shift in mindset. This white paper contrasts the impact of the 2008 recession on the retail sector with the current headwinds retailers are grappling with, while offering a comprehensive roadmap for success in this new paradigm.
Top mailing list providers in the USA.pptxJeremyPeirce1
Discover the top mailing list providers in the USA, offering targeted lists, segmentation, and analytics to optimize your marketing campaigns and drive engagement.
Starting a business is like embarking on an unpredictable adventure. It’s a journey filled with highs and lows, victories and defeats. But what if I told you that those setbacks and failures could be the very stepping stones that lead you to fortune? Let’s explore how resilience, adaptability, and strategic thinking can transform adversity into opportunity.
This document discusses curvilinear motion and kinematics. It introduces position vectors, path coordinates, velocity vectors, and acceleration vectors for particles moving in three-dimensional space. Key concepts covered include defining the position vector r(t) from a reference point to the particle, the instantaneous velocity vector v as the time derivative of r(t), and the acceleration vector a as the time derivative of v. When working in Cartesian coordinates, the derivatives of vector components are simply the derivatives of the individual x, y, z components.
Dinamika partikel Mata Kuliah Konsep Dasar IPAlailam02
The document discusses particle dynamics and Newton's laws of motion. It defines particle dynamics as the science of forces that cause motionless particles to accelerate or decelerate. Newton's first law states that an object at rest stays at rest or an object in motion stays in motion with constant velocity unless acted upon by an external force. Newton's second law relates force, mass, and acceleration. Newton's third law states that for every action there is an equal and opposite reaction. The document also discusses concepts such as friction, circular motion, projectile motion, and the relationship between mass and weight.
Ekeeda Provides Online Civil Engineering Degree Subjects Courses, Video Lectures for All Engineering Universities. Video Tutorials Covers Subjects of Mechanical Engineering Degree.
This document summarizes key principles of Einstein's theory of special relativity, including:
1) Special relativity is based on two postulates - the principle of relativity and the constant speed of light. This leads to time dilation, length contraction, and the equivalence of mass and energy.
2) Lorentz transformations relate the coordinates of observers in different inertial reference frames and explain how the speed of light remains constant for all observers.
3) Spacetime diagrams illustrate how events that are simultaneous for one observer may not be for another due to the finite speed of light and relativity of simultaneity.
The document summarizes several methods for computing fully normalized associated Legendre functions (ALFs) for very high degrees and orders needed in applications like modeling Earth's gravity field. It describes standard forward recursion methods, modified forward methods to address numerical issues like underflow, and numerical tests comparing the precision, efficiency and accuracy of the different approaches when computing ALFs up to degree 2700.
Understanding Dynamic Programming through Bellman OperatorsAshwin Rao
Policy Iteration and Value Iteration algorithms are best understood by viewing them from the lens of Bellman Policy Operator and Bellman Optimality Operator
This document provides notes on kinematics, dynamics, and other introductory physics concepts. It includes definitions of key terms like velocity, acceleration, force, mass, weight, friction, and free body diagrams. Example problems demonstrate concepts like Newton's laws of motion applied to blocks on an inclined plane or connected by a pulley system. Key equations are presented for kinematics, dynamics, gravitational force, and friction. Exercises at the end test understanding of concepts like net force, acceleration with multiple forces, and effects of friction.
This document summarizes research on modeling wildfires and turbulent premixed combustion. It discusses how turbulence affects wildfire propagation through turbulent transport of hot air, making the fire front position random. It presents a level set method for modeling deterministic and random fire fronts, accounting for turbulence. It also discusses using a Lagrangian approach to model turbulent premixed combustion, describing how the burned mass fraction evolves due to particle motion, flame front velocity, and curvature.
Physics 504 Chapter 9 Uniform Rectilinear MotionNeil MacIntosh
This document discusses uniform rectilinear motion. It defines different types of motion including rectilinear, curvilinear, and random motion. Distance is defined as a scalar quantity representing how far an object has moved, while displacement is a vector quantity that includes both distance and direction. Uniform motion refers to motion at a constant speed in a single direction. Graphs of distance-time and velocity-time relationships are used to analyze motion. The average velocity and speed can be calculated from these graphs by determining slope.
This student worksheet is for a group project on the topic of linear motion in a Physics class during the first semester. The document provides instructions for students to read materials, discuss questions in their groups, and have one member of each group present the results of their discussion. The questions focus on distinguishing between uniform and uniformly accelerated motion, applications of each type of motion, whether free fall is uniform or accelerated, and classifying the motion of trains on tracks.
Forces cause objects to accelerate by changing their speed or direction of motion. A force can be applied to speed an object up, slow it down, or cause it to change direction as when turning a corner. Free body diagrams are drawings used to represent the different forces acting on an object, such as a football, showing the direction of each force as it is thrown, kicked, or tackled.
Kinematics is the study of linear motion. Key terms include displacement, velocity, and acceleration. Displacement is the distance from a starting point, velocity is speed in a direction, and acceleration is the rate of change of velocity. Average values are calculated by total distance or displacement over total time. Instantaneous values give a clearer picture of motion at a moment in time and can be derived from graphs of displacement, velocity, and acceleration over time. When acceleration is constant, five equations can be used to describe motion with constant acceleration.
This document outlines an experiment to study the linear motion of an object using a trolley, ticker timer, and metalized recording paper. The procedure involves connecting the components, releasing the trolley down an inclined track, and marking the recording paper with the ticker timer to obtain strips that represent the trolley's change in velocity over time. These strips are then analyzed to calculate the trolley's displacement, velocity, acceleration, and their relationships to time.
Distance is the total path length travelled, regardless of direction. Displacement describes both the distance and direction from the starting point. Speed is a scalar quantity referring to distance travelled per unit time, while velocity is a vector quantity referring to displacement per unit time, including direction. Examples show calculating distances, displacements, speeds and velocities for objects moving in one or more directions. Bearings are used to describe angular displacement from north in a clockwise direction.
The document defines and explains key kinematics concepts including speed, velocity, acceleration, uniform acceleration, and linear motion. Speed is distance over time while velocity includes direction and is a vector. Acceleration is the rate of change of velocity, calculated as the change in velocity over time. Acceleration is uniform if the rate of change is constant, while non-uniform acceleration means the rate varies over time. Velocity decreases in deceleration.
Zodiac Signs and Food Preferences_ What Your Sign Says About Your Tastemy Pandit
Know what your zodiac sign says about your taste in food! Explore how the 12 zodiac signs influence your culinary preferences with insights from MyPandit. Dive into astrology and flavors!
Unveiling the Dynamic Personalities, Key Dates, and Horoscope Insights: Gemin...my Pandit
Explore the fascinating world of the Gemini Zodiac Sign. Discover the unique personality traits, key dates, and horoscope insights of Gemini individuals. Learn how their sociable, communicative nature and boundless curiosity make them the dynamic explorers of the zodiac. Dive into the duality of the Gemini sign and understand their intellectual and adventurous spirit.
3 Simple Steps To Buy Verified Payoneer Account In 2024SEOSMMEARTH
Buy Verified Payoneer Account: Quick and Secure Way to Receive Payments
Buy Verified Payoneer Account With 100% secure documents, [ USA, UK, CA ]. Are you looking for a reliable and safe way to receive payments online? Then you need buy verified Payoneer account ! Payoneer is a global payment platform that allows businesses and individuals to send and receive money in over 200 countries.
If You Want To More Information just Contact Now:
Skype: SEOSMMEARTH
Telegram: @seosmmearth
Gmail: seosmmearth@gmail.com
Part 2 Deep Dive: Navigating the 2024 Slowdownjeffkluth1
Introduction
The global retail industry has weathered numerous storms, with the financial crisis of 2008 serving as a poignant reminder of the sector's resilience and adaptability. However, as we navigate the complex landscape of 2024, retailers face a unique set of challenges that demand innovative strategies and a fundamental shift in mindset. This white paper contrasts the impact of the 2008 recession on the retail sector with the current headwinds retailers are grappling with, while offering a comprehensive roadmap for success in this new paradigm.
Top mailing list providers in the USA.pptxJeremyPeirce1
Discover the top mailing list providers in the USA, offering targeted lists, segmentation, and analytics to optimize your marketing campaigns and drive engagement.
Starting a business is like embarking on an unpredictable adventure. It’s a journey filled with highs and lows, victories and defeats. But what if I told you that those setbacks and failures could be the very stepping stones that lead you to fortune? Let’s explore how resilience, adaptability, and strategic thinking can transform adversity into opportunity.
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1. HOME
HOME
STANDARD
STANDARD
OF
COMPETENCE
BASIC
COMPETENCE
INDICATOR
INDICATOR
MATERIAL
MATERIAL Loading … 75%
50%
25%
100%
0%
EXERCISE
REFFERENCE
BY
END
Pembelajaran Fisika di Kelas Internasional
Pembelajaran Fisika di Kelas Internasional
2. HOME
STANDARD
OF
COMPETENCE
BASIC
LINEAR MOTION
COMPETENCE
INDICATOR
MATERIAL
BY :
EXERCISE
SEPTIN DIAN PUSPITA
REFFERENCE
09330206
BY
5E
END
Pembelajaran Fisika di Kelas Internasional
3. HOME
STANDARD
STANDARD OF
OF
COMPETENCE COMPETENCE
BASIC
COMPETENCE
INDICATOR
MATERIAL
EXERCISE Applying the concept and basic
principles of kinematics and dynamics of
REFFERENCE
the object point
BY
END
Pembelajaran Fisika di Kelas Internasional
4. HOME
STANDARD
OF
COMPETENCE BASIC COMPETENCE
BASIC
COMPETENCE
INDICATOR
MATERIAL
Analyzing the physical quantity of
EXERCISE
motion with constant velocity and
acceleration
REFFERENCE
BY
END
Pembelajaran Fisika di Kelas Internasional
5. HOME
STANDARD
INDICATOR
OF
COMPETENCE
1. Describes the definition of motion
BASIC
COMPETENCE
2. Analyzing the physical quantities on
INDICATOR
MATERIAL
the motion with constant velocity.
EXERCISE 3. Analyzing the physical quantities on
REFFERENCE
the motion with constant acceleration
BY
4. Analyzing straight-line motion with
END
constant velocity and straight-line
motion with constant acceleration
Pembelajaran Fisika di Kelas Internasional
6. HOME
STANDARD
MATERIAL
OF
COMPETENCE
BASIC
DEFINITION MOTION
COMPETENCE
INDICATOR Motion is the shift of an object from one
MATERIAL
position to another position. An object is
EXERCISE
condicered moving when its position to a
REFFERENCE
BY
reference changing point changes. Straight
END motion is the motion of an object that tracks
a straight line.
Pembelajaran Fisika di Kelas Internasional
7. HOME Displacement
STANDARD Displacement is distance moved inthe
OF
COMPETENCE particular direction.
BASIC displacement
COMPETENCE A B
INDICATOR x1 x2
MATERIAL
Distance scalar quantity
EXERCISE
Distance is the total length of travel irrespective
REFFERENCE of the direction of motion.
5m
BY A B
END
Example: 5m
An object motion from A to B (5 m) displacement( x) = 0
and later on it turns to A and stops distance = 5m + 5m =10m
Pembelajaran Fisika di Kelas Internasional
8. HOME velocity vector quantity
STANDARD
OF
COMPETENCE
BASIC
COMPETENCE
INDICATOR
MATERIAL
EXERCISE
REFFERENCE
BY
END
Pembelajaran Fisika di Kelas Internasional
9. HOME
STANDARD
Acceleration vector quantity
OF
COMPETENCE
BASIC
COMPETENCE
INDICATOR
MATERIAL
EXERCISE
REFFERENCE
BY
END
Pembelajaran Fisika di Kelas Internasional
10. HOME
Linear motion with constant
STANDARD velocity(uniformly motion)
OF
COMPETENCE
Motion of an object with a linear motion trajectory and constant
BASIC
velocity (motion of an object on a straight trajectory at each time
COMPETENCE interval in which the same object the same distance).
INDICATOR
distance velocity
MATERIAL
EXERCISE x v
V=
REFFERENCE
x constant
0
BY 0 t 0 t
END X = x0 + vt v=constant
acceleration (a) = 0
Pembelajaran Fisika di Kelas Internasional
11. HOME
GRAPH LINEAR MOTION WITH CONSTANT
VELOCITY(uniform motion)
STANDARD
OF
COMPETENCE
BASIC
COMPETENCE
INDICATOR
MATERIAL
EXERCISE
Graph distance(x) – Graph velocity(v) – time(t) Graph acceleration(a) –
REFFERENCE time(t) time(t)
BY
END
Pembelajaran Fisika di Kelas Internasional
12. HOME LINEAR MOTION WITH CONSTANT
STANDARD ACCELERATION(uniformly accelerated
OF
COMPETENCE motion)
BASIC Motion of an object with a linear motion trajectory
COMPETENCE
INDICATOR
with a velocity change regularly.
MATERIAL
Position velocity
EXERCISE
x v
REFFERENCE
acceleration
BY
t t
x = x0 + v0t + ½ at2 a a = constant v = v0 + at
END
0 t
a=constant
Pembelajaran Fisika di Kelas Internasional
13. HOME Graph uniformly accelerated motion is
STANDARD
accelerated( + a )
OF
COMPETENCE
BASIC
COMPETENCE
INDICATOR
MATERIAL
EXERCISE
Jarak (s) – waktu (t) kecepatan (v) – waktu (t) percepatan (a) – waktu (t)
Jarak (s) kecepatan (v) Percepatan (a)
REFFERENCE
vo2 =
v2+ 2as
BY
END
x = vo.t + ½ at2 v= vo + at a = (v/vo) : t
Pembelajaran Fisika di Kelas Internasional
14. HOME Graph uniformly accelerated motion is slowed (-a)
STANDARD
OF
COMPETENCE
BASIC
COMPETENCE
INDICATOR
MATERIAL
EXERCISE
Jarak (s) – waktu (t) kecepatan (v) – waktu (t) percepatan (a) – waktu (t)
Jarak (s) kecepatan (v) Percepatan (a)
REFFERENCE
v2 = vo2- 2as
BY
END
x = vo.t - ½ at2 v = vo - at a = (v/vo) : t
Pembelajaran Fisika di Kelas Internasional
15. HOME EXERCISE
STANDARD
OF
COMPETENCE
BASIC
COMPETENCE
INDICATOR
MATERIAL
EXERCISE
REFFERENCE
BY
END
Pembelajaran Fisika di Kelas Internasional
16. HOME
STANDARD
REFFERENCE
OF
COMPETENCE • Purwoko, Fendi. 2009. Physic 1 for Senior High
BASIC School Year X. Jakarta : Yudistira.
COMPETENCE
INDICATOR • Marten Kanginan. 2002. Physics 1. Jakarta :
Erlangga.
MATERIAL
• Team MGMP Physic Senior High School. 2006.
EXERCISE
Worksheet Senior High School Physic X.
REFFERENCE Jakarta : Multigrafika.
BY
END
Pembelajaran Fisika di Kelas Internasional
17. HOME
STANDARD
OF
COMPETENCE
BASIC DEVELOPMENT
COMPETENCE
INDICATOR
MATERIAL SEPTIN DIAN PUSPITA
EXERCISE
09330206
REFFERENCE
5E
BY
END
Pembelajaran Fisika di Kelas Internasional
18. HOME
STANDARD
OF
COMPETENCE
BASIC
THANK’S YOU
COMPETENCE
INDICATOR SEE YOU NEXT TIME
MATERIAL
EXERCISE
REFFERENCE
BY
END
Pembelajaran Fisika di Kelas Internasional