![PHYS 307 LECTURE NOTES, Daniel W. Koon, St. Lawrence Univ.](http://s1.studyres.com/store/data/009922976_1-e11f630dce71e21e1e2b1a0e8f6098cd-300x300.png)
PHYS 307 LECTURE NOTES, Daniel W. Koon, St. Lawrence Univ.
... latitude and hurtling through space around the Sun, which is moving at 43000 mph relative to our galaxy, which is speeding at 600,000 mph relative to nearby galaxies. Now, because the rotation of the earth about its axis and its revolution around the sun are circular motions, the Earth is not strict ...
... latitude and hurtling through space around the Sun, which is moving at 43000 mph relative to our galaxy, which is speeding at 600,000 mph relative to nearby galaxies. Now, because the rotation of the earth about its axis and its revolution around the sun are circular motions, the Earth is not strict ...
hp1f2013_class06_momentum
... Momentum is still conserved, independent of the type of collision. Elastic collision: Just use conservation of momentum. For a completely specified initial condition (m1, m2, v1, v2) , we have one equation, two unknowns. From what me know so far, we can deduce the relationship between the velocities ...
... Momentum is still conserved, independent of the type of collision. Elastic collision: Just use conservation of momentum. For a completely specified initial condition (m1, m2, v1, v2) , we have one equation, two unknowns. From what me know so far, we can deduce the relationship between the velocities ...
Chapter 05 - Force and Motion
... Figure 5-12 shows a block S (the sliding block) with mass M =3.3 kg. The block is free to move along a horizontal frictionless surface and connected, by a cord that wraps over a frictionless pulley, to a second block H (the hanging block), with mass m 2.1 kg. The cord and pulley have negligible mass ...
... Figure 5-12 shows a block S (the sliding block) with mass M =3.3 kg. The block is free to move along a horizontal frictionless surface and connected, by a cord that wraps over a frictionless pulley, to a second block H (the hanging block), with mass m 2.1 kg. The cord and pulley have negligible mass ...
Homework Assignment #6 Solutions
... flying about, according to Newton’s first law, and having our environment change around us. Other times, we’ll introduce a non-inertial frame because purely pragmatic considerations make it more convenient to do so (this is rare). In either of these cases, what we must be aware of is that objects wi ...
... flying about, according to Newton’s first law, and having our environment change around us. Other times, we’ll introduce a non-inertial frame because purely pragmatic considerations make it more convenient to do so (this is rare). In either of these cases, what we must be aware of is that objects wi ...
Physics 121 Exam Sheet - BYU Physics and Astronomy
... Kinematic relationships valid iff a = constant: v = v0 + at, r = r0 + v0t + ½ at2, r = r0 + ½ (v + v0)t, vv = v0v0 + 2aΔr For free fall with a = (0, -g), v0 = (vx0, vy0) = (v0 cos θ, v0 sin θ) ax = 0, ay = -g, vx = vx0, vy = vy0 - gt, x = x0 + vx0t, y = y0 + vy0t - ½ gt2 Projectile motion over le ...
... Kinematic relationships valid iff a = constant: v = v0 + at, r = r0 + v0t + ½ at2, r = r0 + ½ (v + v0)t, vv = v0v0 + 2aΔr For free fall with a = (0, -g), v0 = (vx0, vy0) = (v0 cos θ, v0 sin θ) ax = 0, ay = -g, vx = vx0, vy = vy0 - gt, x = x0 + vx0t, y = y0 + vy0t - ½ gt2 Projectile motion over le ...
Newton’s Laws of Motion - Wayne State University
... applied to point-like objects, or particles. • We will discuss later how the laws of motions can be used for extended objects. • Description of point-like objects is sufficient to treat very many interesting, quite practical, physical cases. ...
... applied to point-like objects, or particles. • We will discuss later how the laws of motions can be used for extended objects. • Description of point-like objects is sufficient to treat very many interesting, quite practical, physical cases. ...
method also has the advantage of producing uncoupled stabilization
... The gimbaled flat steering mirrors commonly used for pointing the outgoing line-of-sight of optical systems can also be driven to stabilize the line-ofsight, effectively isolating it from vehicle base motion. The stabilization equations provide the relative rates of the gimbal angles as functions of ...
... The gimbaled flat steering mirrors commonly used for pointing the outgoing line-of-sight of optical systems can also be driven to stabilize the line-ofsight, effectively isolating it from vehicle base motion. The stabilization equations provide the relative rates of the gimbal angles as functions of ...
Our aim is to derive the fundamental equations of meteorology from
... Dt which applies in an inertial reference frame. The tiny a refers to absolute frame, which is another name for the inertial frame. The F only includes the fundamental forces, no apparent forces allowed. Unfortunately this equation is inconvenient for Earth dwellers. We see and feel acceleration wit ...
... Dt which applies in an inertial reference frame. The tiny a refers to absolute frame, which is another name for the inertial frame. The F only includes the fundamental forces, no apparent forces allowed. Unfortunately this equation is inconvenient for Earth dwellers. We see and feel acceleration wit ...
Chapter 3 Force and Newton`s laws
... What will be the states of the body if there is no any interactions between it and its environment? (an isolated system) At rest or 1D uniform motion Newton’s first law : Every body continues in its state of rest or uniform motion in a straight line, unless it is compelled to change that state b ...
... What will be the states of the body if there is no any interactions between it and its environment? (an isolated system) At rest or 1D uniform motion Newton’s first law : Every body continues in its state of rest or uniform motion in a straight line, unless it is compelled to change that state b ...
Extending the application of the relativity principle: Some
... Using ~2!, and under the additional assumption of force invariance with change of inertial frame of reference, one can infer that Newton’s second law, ma5F, remains valid for all inertial observers. In regard to momentum and energy, IPC texts do not usually consider more than one observer.5 This is ...
... Using ~2!, and under the additional assumption of force invariance with change of inertial frame of reference, one can infer that Newton’s second law, ma5F, remains valid for all inertial observers. In regard to momentum and energy, IPC texts do not usually consider more than one observer.5 This is ...
Speed of Light
... Consider a spaceship far from any appreciable star or planet – so essentially no gravity. The spaceship is accelerating through space by firing its rocket engine. Now consider a person in the spaceship who is standing on a scale. Since the person is accelerating with the spaceship, and the scale is ...
... Consider a spaceship far from any appreciable star or planet – so essentially no gravity. The spaceship is accelerating through space by firing its rocket engine. Now consider a person in the spaceship who is standing on a scale. Since the person is accelerating with the spaceship, and the scale is ...
MATH TODAY
... of Engage New York covers Problem Solving with the Coordinate Plane. This newsletter will discuss Module 6, Topic A. In this topic students are introduced to the concept of a coordinate as describing the distance of a point on the line from zero. Students will also describe given points using coordi ...
... of Engage New York covers Problem Solving with the Coordinate Plane. This newsletter will discuss Module 6, Topic A. In this topic students are introduced to the concept of a coordinate as describing the distance of a point on the line from zero. Students will also describe given points using coordi ...
Plan of Lectures - The Budker Group
... most commonly used systems are SI (MKS) and Gaussian (CGS). Many working physicists still use CGS as it is particular convenient for E&M. In mechanics, it really does not matter, and we will use all kinds of units. Warning: watch out for unit consistency. Use of the K&K book. We will heavily rely on ...
... most commonly used systems are SI (MKS) and Gaussian (CGS). Many working physicists still use CGS as it is particular convenient for E&M. In mechanics, it really does not matter, and we will use all kinds of units. Warning: watch out for unit consistency. Use of the K&K book. We will heavily rely on ...
Introduction to Lateral Force Resisting Systems
... The basic idea is to make a rectangular tube out the the perimeter of the building. The tube is made up of closely spaced columns connected by stiff spandrel beams creating very stiff moment frames. Frames parallel to direction of force act like webs to carry the shear. Frames perpendicular to the d ...
... The basic idea is to make a rectangular tube out the the perimeter of the building. The tube is made up of closely spaced columns connected by stiff spandrel beams creating very stiff moment frames. Frames parallel to direction of force act like webs to carry the shear. Frames perpendicular to the d ...
Skills Worksheet
... USING KEY TERMS Complete each of the following sentences by choosing the correct term from the word bank. ...
... USING KEY TERMS Complete each of the following sentences by choosing the correct term from the word bank. ...
MOTION - pdsd.org
... on the platform see those on the train speeding by. when people on the train look at one another, they don't seem to be moving at all OR moving backwards ...
... on the platform see those on the train speeding by. when people on the train look at one another, they don't seem to be moving at all OR moving backwards ...
Document
... The magnitude of the centripetal acceleration vector is ac = v2/r. A force is required to make an object move in a circle. This force is called the centripetal force, with magnitude Fc = m v2/r. Fc points towards the center of the circle. ...
... The magnitude of the centripetal acceleration vector is ac = v2/r. A force is required to make an object move in a circle. This force is called the centripetal force, with magnitude Fc = m v2/r. Fc points towards the center of the circle. ...
Physics 106P: Lecture 5 Notes
... They are experimentally, not mathematically, justified. They work, and DEFINE what we mean by “forces”. ...
... They are experimentally, not mathematically, justified. They work, and DEFINE what we mean by “forces”. ...
Relativistic reference frames for radio science experiments with a
... the equation of motion. There are three different time coordinates to be considered. The dynamics of the planets, as described by the Lagrangian, is the solution of differential equations having a time belonging to a space-time reference frame with origin in the SSB as independent variable. There ca ...
... the equation of motion. There are three different time coordinates to be considered. The dynamics of the planets, as described by the Lagrangian, is the solution of differential equations having a time belonging to a space-time reference frame with origin in the SSB as independent variable. There ca ...
here - Physics at PMB
... Chapter 3. To describe the motion of an object, we need to specify the position of the object with respect to some frame of reference and a reference point. A frame of reference is the set of coordinate system used to measure the properties of an object’s motion such as displacement, velocity, accel ...
... Chapter 3. To describe the motion of an object, we need to specify the position of the object with respect to some frame of reference and a reference point. A frame of reference is the set of coordinate system used to measure the properties of an object’s motion such as displacement, velocity, accel ...