Determine the angular momentum of a 77-g particle about the origin of coordinates when the particle...

A particle is at the position (x,y,z)=(1.0,2.0,3.5)m. It is traveling with a vector velocity (−5.2,2.6,−3.0)m/s. Its...

A particle is at the position (x,y,z)=(1.0,2.0,3.5)m. It is traveling with a vector velocity (−5.2,2.6,−3.0)m/s. Its mass is 3.8 kg . (PART A)What is its vector angular momentum about the origin? Find the x-component. (Express your answer using two significant figures.) (PART B) Find the y-component. Express your answer using two significant figures. (PART C) Find the z -component. Express your answer using two significant figures.

A particle with a charge of 37 μC moves with a speed of 77 m/s in...

A particle with a charge of 37 μC moves with a speed of 77 m/s in the positive x direction. The magnetic field in this region of space has a component of 0.42 T in the positive y direction, and a component of 0.87 T in the positive z direction. Part A: What is the magnitude of the magnetic force on the particle? Express your answer using two significant figures. Part B: What is the direction of the magnetic force...

At time t = 0, a 4.0 kg particle with velocity v with arrow = (5.0...

At time t = 0, a 4.0 kg particle with velocity v with arrow = (5.0 m/s) i hat − (6.0 m/s) j is at x = 4.0 m, y = 2.0 m. It is pulled by a 6.0 N force in the negative x direction. (a) What is the angular momentum of the particle about the origin? (Express your answer in vector form.) (b) What torque about the origin acts on the particle? (Express your answer in vector form.)...

At time t = 4 sec, a particle of mass M = 4.5 kg is at...

At time t = 4 sec, a particle of mass M = 4.5 kg is at the position (x,y,z) = (4,4,6) m and has velocity (2,1,-2) m/s. 1)What is the x component of the particle's angular momentum about the origin? 2)What is the y component of the particle's angular momentum about the origin? 3)What is the z component of the particle's angular momentum about the origin? 4)Now an identical particle is placed at (x,y,z) = (-4,-4,-6) m, with velocity (-2,-1,2)...

At time t = 11.5 sec, a particle of mass M = 5 kg is at...

At time t = 11.5 sec, a particle of mass M = 5 kg is at the position (x,y,z) = (4,4,6) m and has velocity (2,1,-2) m/s. 1) What is the x component of the particle's angular momentum about the origin? 2) What is the y component of the particle's angular momentum about the origin? 3) What is the z component of the particle's angular momentum about the origin? 4) Now an identical particle is placed at (x,y,z) = (-4,-4,-6)...

A particle is at the position (x,y,z)=(1.3,2.5,3.3)m(x,y,z)=(1.3,2.5,3.3)m. It is traveling with a vector velocity (−5.1,3.0,−3.1)m/s(−5.1,3.0,−3.1)m/s. Its...

A particle is at the position (x,y,z)=(1.3,2.5,3.3)m(x,y,z)=(1.3,2.5,3.3)m. It is traveling with a vector velocity (−5.1,3.0,−3.1)m/s(−5.1,3.0,−3.1)m/s. Its mass is 3.6 kg A)What is its vector angular momentum about the origin? Find the xx-component. B)Find the yy-component. C)Find the zz-component..

The masses and coordinates of four particles are as follows: 77 g, x = 4.0 cm,...

The masses and coordinates of four particles are as follows: 77 g, x = 4.0 cm, y = 4.0 cm; 28 g, x = 0, y = 8.0 cm; 13 g, x = - 6.0 cm, y = - 6.0 cm; 64 g, x = - 4.0 cm, y = 8.0 cm. What are the rotational inertias of this collection about the (a) x, (b) y, and (c) z axes?

IP A particle passes through the origin with a velocity of (6.8m/s)y^. Part A If the...

IP A particle passes through the origin with a velocity of (6.8m/s)y^. Part A If the particle's acceleration is (−5.0m/s2)x^, what are its x and y positions after 5.0 s ? x, y =   m Part B If the particle's acceleration is (−5.0m/s2)x^, what are vx and vy after 5.0 s ? Express your answers using two significant figures separated by a comma. vx, vy =   m/s  

A wheel is spinning about a horizontal axis, with angular speed 140 rad/s and with its...

A wheel is spinning about a horizontal axis, with angular speed 140 rad/s and with its angular velocity pointing east. a.) Find the magnitude of its angular velocity after an angular acceleration of 34 rad/s2 , pointing 68 ∘ west of north, is applied for 5.5 s . Express your answer using two significant figures. b.) Find the direction of its angular velocity. Express your answer using two significant figures.

Calculate the magnitude of the maximum orbital angular momentum Lmax L m a x for an...

Calculate the magnitude of the maximum orbital angular momentum Lmax L m a x for an electron in a hydrogen atom for states with a principal quantum number of 5. Express your answer in units of ℏ ℏ to three significant figures. Calculate the magnitude of the maximum orbital angular momentum LmaxLmax for an electron in a hydrogen atom for states with a principal quantum number of 21. Express your answer in units of ℏℏ to three significant figures. Calculate...