You measure the x component of the position of an electron along an x axis as...

In a nonrelativistic experiment, an electron and a proton are each located along the x-axis to...

In a nonrelativistic experiment, an electron and a proton are each located along the x-axis to within an uncertainty of 2.45 µm. Determine the minimum uncertainty in the x-component of the velocity of the electron and the proton. (Enter your answers in m/s.) HINT (a) the electron m/s (b) the proton m/s

The x component of the velocity of an object vibrating along the x-axis obeys the equation...

The x component of the velocity of an object vibrating along the x-axis obeys the equation vx(t) = (0.445 m/s) sin[(25.4 rad/s)t + 0.223] 1) What is the object’s acceleration when its velocity has a maximum positive value? 2) What is the object’s position x when it has a velocity of -0.200 m/s and a positive acceleration value?

The X component of the velocity of an object vibrating along the X-axis obeys the equation...

The X component of the velocity of an object vibrating along the X-axis obeys the equation Vx(t) = (0.444 m/s) sin[(25.4 rad/s)t + 0.223]. A. What is the amplitude of the motion of this object? B. What is the maximum acceleration of the vibration object?

A particle moves along the x axis. It is initially at the position 0.150 m, moving...

A particle moves along the x axis. It is initially at the position 0.150 m, moving with velocity 0.080 m/s and acceleration -0.340 m/s2. Suppose it moves with constant acceleration for 5.60 s. (c) Find its position (d) Find its velocity at the end of this time interval.

A particle moves along the x axis. It is initially at the position 0.150 m, moving...

A particle moves along the x axis. It is initially at the position 0.150 m, moving with velocity 0.080 m/s and acceleration -0.340 m/s2. Suppose it moves with constant acceleration for 5.60 s. (a) Find the position of the particle after this time. (b) Find its velocity at the end of this time interval. Next, assume it moves with simple harmonic motion for 5.60 s and x = 0 is its equilibrium position. (Assume that the velocity and acceleration is...

Two particles move along an x axis. The position of particle 1 is given by x...

Two particles move along an x axis. The position of particle 1 is given by x = 10.0t2 + 6.00t + 4.00 (in meters and seconds); the acceleration of particle 2 is given by a = -9.00t (in meters per seconds squared and seconds) and, at t = 0, its velocity is 24.0 m/s. When the velocities of the particles match, what is their velocity?

A particle performs simple harmonic oscillations along the x-axis about the equilibrium position of x=0. The...

A particle performs simple harmonic oscillations along the x-axis about the equilibrium position of x=0. The angular frequency of the oscillations (w) is 4 Hz. At t=0, the particle is observed to be at a position x0 = 25 cm, and traveling with a velocity v0 = 100 cm/s along the x-axis. Find the position and velocity of the particle at t = 2.4 s.

The uncertainty in position of an electron is 5.00 10-10 m. Find the minimum uncertainty in...

The uncertainty in position of an electron is 5.00 10-10 m. Find the minimum uncertainty in the electron's velocity. Incorrect:

An object is moving along a straight line, and the uncertainty in its position is 2.80...

An object is moving along a straight line, and the uncertainty in its position is 2.80 m. (a) Find the minimum uncertainty in the momentum of the object. Find the minimum uncertainty in the object's velocity, assuming that the object is (b) a golf ball (mass = 0.0450 kg) and (c) an electron.

An object is moving along a straight line, and the uncertainty in its position is 3.50...

An object is moving along a straight line, and the uncertainty in its position is 3.50 m. (a) Find the minimum uncertainty in the momentum of the object. Find the minimum uncertainty in the object's velocity, assuming that the object is (b) a golf ball (mass = 0.0450 kg) and (c) an electron.