An object is undergoing rotational motion. We pick some point on the object that is a...

An object is undergoing simple harmonic motion along the x-axis. its position is described as a...

An object is undergoing simple harmonic motion along the x-axis. its position is described as a function of time by x(t)= 5.3cos(4.2t-1.9), where x is in meters, the time t, is in seconds, and the argument of the cosine is in radians. c) determine the position of the object, in meters, at the time t=2.6s? d) what the objects velocity, in meters per second, at the time t=2.6s? e) calculate the objects acceleration, in meters per second squared, at time...

Consider some electrons undergoing cyclotron motion. These electrons can be sped up by increasing the magnetic...

Consider some electrons undergoing cyclotron motion. These electrons can be sped up by increasing the magnetic field; the accompanying electric field will impart tangential acceleration. Suppose we want to to keep the radius of the orbit constant during this process. Show that we can do this by designing a magnet that produces a field such that the average field over the area of the orbit is twice the field at the circumference. Assume that the electrons we have start from...

As the object rotates through a small angle Δθ in the short time Δt, the point...

As the object rotates through a small angle Δθ in the short time Δt, the point P moves a distance Δs = r Δθ along the arc of its circular path. Thereforev = Δs Δt = rΔθ Δt .This becomes v = rω, whereω = dθ dt .Therefore, the tangential speed of the point P is v = rω = (80 m)(1 rad/s) =  m/s. FINALIZE Use the simulation to examine the relationship between angular rate of rotation and linear speed....

Hi, I did a lab on ROTATIONAL KINEMATICS and I'm having a little trouble answering the...

Hi, I did a lab on ROTATIONAL KINEMATICS and I'm having a little trouble answering the questions at the end of the lab. For this lab, we used an object attach to a parallel shaft that spins. There was a hanging mass attached to the shaft that made the object spin. We then recorded the times for two different methods. These methods were PART A). Angular Position Versus Time, and PART B). Angular Velocity versus Time. Once done, we were...

Astronomy: 1. Determine the position in the oscillation where an object in simple harmonic motion: a....

Astronomy: 1. Determine the position in the oscillation where an object in simple harmonic motion: a. has the greatest speed. b. has the greatest acceleration. c. experiences the greatest restoring force. d. experiences zero restoring force. 2. Describe simple harmonic motion, including its cause and appearance. 3. Describe how the change in a. amplitude (angle), b. length, and c. mass affect the period of the pendulum.\ 4. Do measurements including uncertainty fall within the accepted value? Which method is more...

Revisiting the ballistic pendulum. In lab we used both conservation of momentum and conservation of energy...

Revisiting the ballistic pendulum. In lab we used both conservation of momentum and conservation of energy to relate the launch speed of a projectile to the maximum height of the swing of a pendulum. Here we will study the parts of this problem in a bit more detail. (a) Briefly explain why momentum is conserved during the collision of the projectile and the pendulum, but mechanical energy is not conserved. (b) Briefly explain why mechanical energy (kinetic plus potential energy)...

Assessment Identify the Variables! In rotational kinematics - the variables are: t = time, which is...

Assessment Identify the Variables! In rotational kinematics - the variables are: t = time, which is measured in s (for seconds) θ = angle = what angle did the object turn thru, usually measured radians ωO = initial angular velocity = the rotational speed of the object at the beginning of the problem, which is measured in rad/s ω = final angular velocity = the rotational speed of the object at the end of the problem, which is measured in...

Please answer all, Thank you. 1. A firework is designed so that when it is fired...

Please answer all, Thank you. 1. A firework is designed so that when it is fired directly upwards, it explodes and splits into three equal-massed parts at its peak. Someone launches the firework directly upwards and measures the locations of two of the pieces of the firework. They find that one piece landed 2 meters to the left and another piece landed two meters in front of them. Where did the third piece of land? 2. A Newton's cradle is...

1. Which weights more, a box filled with 300grams of marbles or a box filled with...

1. Which weights more, a box filled with 300grams of marbles or a box filled with 300grams of feathers. Assume both boxes have equal mass. (a) There is not enough data to answer the question (b) They weigh the same (c) a box filled with 300gram of marbles (d) a boxed filled with 300grams of feathers. *is this a trick question? or I'm possible over-thinking it?? I would think the OBVIOUS answer is B. 2. In our uniformly accelerated motion...

1. Review your notes from 02-28 and your calculation of the moment of inertia of the...

1. Review your notes from 02-28 and your calculation of the moment of inertia of the "rigid rotator," two masses, 7 kg each attached to a light titanium bar (neglect this weight) separation 4.20 m rotation axis halfway between the two masses, perpendicular to the bar. Our calculation of moment of inertia Iwas I = ∑ left, right ( m r 2 ) = ( 7 k g ) ( 2.10 m ) 2 + ( 7 k g )...