Consider the case of two different frames of reference. One frame is stationary, the other is...

Consider two events. Give an example of coordinates x,y,z,t and x’,y’,z’,t’ and relative velocity of the...

Consider two events. Give an example of coordinates x,y,z,t and x’,y’,z’,t’ and relative velocity of the two frames u, such that event 1 occurs first in the unprimed reference frame, but event 2 occurs first in the primed reference frame. The example must use special relativity and show it works using numbers not just concept

Which of the following inertial reference frames are proper frames for the two events listed? Choose...

Which of the following inertial reference frames are proper frames for the two events listed? Choose all that apply. RED FRAME: Event A happened at a different place than event B. ORANGE FRAME: Event C happened at (9 m, 7 m, -6 m) and event D happened at (-9 m, 0.7 m, -6 m). YELLOW FRAME: The distance between where event E occurred and where event F occurred was 4 m. GREEN FRAME: A rocket was traveling at a constant...

1. In one inertial reference frame, an electron is observed traveling with a velocity of magnitude...

1. In one inertial reference frame, an electron is observed traveling with a velocity of magnitude v in the positive x-direction, where v is 0.6c. What are the momentum and total energy of the electron in that inertial reference frame in terms of v and the rest mass of the electron? What are the speed, momentum and energy of that electron as measured in a reference frame that is traveling at a velocity of magnitude v/2 in the positive x-direction?...

ane sets up two mirrors in her reference frame where mirror A is located on the...

ane sets up two mirrors in her reference frame where mirror A is located on the x-axis 100 m from the origin and mirror B is located on the y-axis 100 m from the origin. She then causes a light source, which is located at the origin and emits light uniformly in all directions, to flash once at t=0. (a) As measured in Jane's inertial frame, what is the time at which the light flash reaches mirror A? (b) As...

3. Consider the following two lines: x = c + t, y = 1 + t,...

3. Consider the following two lines: x = c + t, y = 1 + t, z = 5 + t and x = t, y = 1 - t, z = 3 + t. Is there a value c that makes the two lines intersect? If so, find it. Otherwise, give a reason. 4. A particle starts at the origin and moves along the shortest path to the line determined by the two points P =(1,2,3) and Q =(3,-2,-1)....

Consider the following events: The births and deaths of three people. We consider two inertial frames...

Consider the following events: The births and deaths of three people. We consider two inertial frames of reference S and S' with their axes aligned (always parallel). S' moves along the +x-axis at a speed 0.98c with respect to S. We think of S as an inertial system in which the Earth is at rest, and of S' as one in which a spaceship is at rest. At t=t'=0, observers in S record the simultaneous births of the three people:...

Consider two particles moving in the xyxy-plane according to parametric equations. At time tt, the position...

Consider two particles moving in the xyxy-plane according to parametric equations. At time tt, the position of particle A is given by x(t) = 2t-3, y(t) = t^2-3t-5x Let kk be some real number. At time tt, the position of particle B is given by x(t) = 4t+3, y(t) = 2t+k^2x Think about the curve traced out by the movement of particle A. Find the equation of the tangent line to the curve at t=4t=4. Give your answer in slope-intercept...

Consider two very long conducting parallel wires carry currents in opposite directions such that one is...

Consider two very long conducting parallel wires carry currents in opposite directions such that one is triple of the other. The distance between wires is 30 cm. The magnetic field at points on a line between the wires, and at a distance of 5 cm from the wire carrying the smaller current, is 2.5×10-5 T. a) Draw a diagram of the situation. Assume the wires are placed in the x-direction. Draw the direction of the magnetic field at points on...

Consider an inelastic collision between two spheres of different masses, m1= 1kg and m2=3 kg, in...

Consider an inelastic collision between two spheres of different masses, m1= 1kg and m2=3 kg, in the +x direction. Ball M1 is moving at speed, v1=3.0ms, and ball 2 is moving towards ball 1 at speed, v2=1 kg. 1. What will happen to the velocities of the two balls after a completely inelastic collision? Explain your reasoning. Do NOT do any calculation yet. Use your physical intuition and what know so far about collisions. 2. Which physical principles were used...

1. For a stationary ball of mass m = 0.200 kg hanging from a massless string,...

1. For a stationary ball of mass m = 0.200 kg hanging from a massless string, draw arrows (click on the “Shapes” tab) showing the forces acting on the ball (lengths can be arbitrary, but get the relative lengths of each force roughly correct). For this case of zero acceleration, use Newton’s 2nd law to find the magnitude of the tension force in the string, in units of Newtons. Since we will be considering motion in the horizontal xy plane,...