Physics Lecture Notes (abridged)
... 1. occurs when there is a constant acceleration at right angles to the velocity 2. constant perimeter (tangential) speed: vt = 2r/T a. distance = circumference of the circle: 2r b. time = time for one revolution: T (period) 3. constant inward (centripetal) acceleration: ac = v2/r G. Newton’s laws ...
... 1. occurs when there is a constant acceleration at right angles to the velocity 2. constant perimeter (tangential) speed: vt = 2r/T a. distance = circumference of the circle: 2r b. time = time for one revolution: T (period) 3. constant inward (centripetal) acceleration: ac = v2/r G. Newton’s laws ...
Physics I - Rose
... (c) EVALUATE: The displacements are in opposite directions because the electron has negative charge and the proton has positive charge. The electron and proton have the same magnitude of charge, so the force the electric field exerts has the same magnitude for each charge. But the proton has a mass ...
... (c) EVALUATE: The displacements are in opposite directions because the electron has negative charge and the proton has positive charge. The electron and proton have the same magnitude of charge, so the force the electric field exerts has the same magnitude for each charge. But the proton has a mass ...
Paper Reference(s)
... In the boxes on the answer book, write the name of the examining body (Edexcel), your centre number, candidate number, the unit title (Mechanics M1), the paper reference (6677), your surname, other name and signature. Whenever a numerical value of g is required, take g = 9.8 m s2. When a calculator ...
... In the boxes on the answer book, write the name of the examining body (Edexcel), your centre number, candidate number, the unit title (Mechanics M1), the paper reference (6677), your surname, other name and signature. Whenever a numerical value of g is required, take g = 9.8 m s2. When a calculator ...
Year 8 Workbook - Dynamic Science
... Flying in the atmosphere Flying through the atmosphere is very different to flying through space. We will explore some of the differences The atmosphere behaves much like a fluid and for all intents and purposes is considered to be a fluid. A law which describes the effect of fluid flow is Bernoull ...
... Flying in the atmosphere Flying through the atmosphere is very different to flying through space. We will explore some of the differences The atmosphere behaves much like a fluid and for all intents and purposes is considered to be a fluid. A law which describes the effect of fluid flow is Bernoull ...
ENGPHY1 QUIZ 3 • Kinetic Energy and Work • Potential Energy and
... 13. A force on a particle is conservative if: A. its work equals the change in the kinetic energy of the particle B. it obeys Newton’s second law C. it obeys Newton’s third law D. its work depends on the end points of every motion, not on the path between E. it is not a frictional force 14. Two part ...
... 13. A force on a particle is conservative if: A. its work equals the change in the kinetic energy of the particle B. it obeys Newton’s second law C. it obeys Newton’s third law D. its work depends on the end points of every motion, not on the path between E. it is not a frictional force 14. Two part ...
Wednesday, Oct. 2, 2002
... – Exam grading not complete yet. Will be done by next Monday – All scores are relative based on the curve • To take into account the varying difficulties of exams • This average will not be skewed by one or two outliers ...
... – Exam grading not complete yet. Will be done by next Monday – All scores are relative based on the curve • To take into account the varying difficulties of exams • This average will not be skewed by one or two outliers ...
Moments of INERTIA
... • Step 3: Find accelerations and Moments of inertia – Since it is not just the object’s mass, but shape determines how an object resists a net torque we will normally have to calculate the object’s moment of inertia. – We normal will have to find the angular acceleration in the system, sometimes we ...
... • Step 3: Find accelerations and Moments of inertia – Since it is not just the object’s mass, but shape determines how an object resists a net torque we will normally have to calculate the object’s moment of inertia. – We normal will have to find the angular acceleration in the system, sometimes we ...
Newton`s Law Card
... important in providing the theory and ideas about gravity. By 1666 Newton had written his three laws of motion. These three laws still stand today and are the basis for understanding many physics concepts. The three laws are: Newton's First Law: An object in motion stays in motion, unless acted upon ...
... important in providing the theory and ideas about gravity. By 1666 Newton had written his three laws of motion. These three laws still stand today and are the basis for understanding many physics concepts. The three laws are: Newton's First Law: An object in motion stays in motion, unless acted upon ...
Chapter 6 notes
... • Part 1: Objects at Rest Objects at rest will stay at rest unless they are acted on by an unbalanced force. • Part 2: Objects in Motion Objects will continue to move with the same velocity unless an unbalanced force acts on them. ...
... • Part 1: Objects at Rest Objects at rest will stay at rest unless they are acted on by an unbalanced force. • Part 2: Objects in Motion Objects will continue to move with the same velocity unless an unbalanced force acts on them. ...
