A negative charge q = −3.20×10−6 C is located at the origin and has velocity υ⃗...

A negative charge q = −3.00×10−6 C is located at the origin and has velocity υ⃗...

A negative charge q = −3.00×10−6 C is located at the origin and has velocity υ⃗ =(7.50×104m/s)i+((−4.90)×104m/s)j. A) At this instant what is the magnetic field produced by this charge at the point x = 0.200 m , y = -0.310 m , z = 0? Enter the x, y, and z components of the magnetic field separated by commas.

(HW09-28.7) A negative charge q = ?3.40×10?6 C is located at the origin and has velocity...

(HW09-28.7) A negative charge q = ?3.40×10?6 C is located at the origin and has velocity ?? =(7.50×104m/s)?^+((?4.90)×104m/s)j^. A) At this instant what is the magnetic field produced by this charge at the point x = 0.250 m , y = -0.250 m , z = 0? Enter the x, y, and z components of the magnetic field separated by commas. Bx, By, Bz =

A negative charge qqq = −3.30×10−6 C is located at the origin and has velocity υ⃗...

A negative charge qqq = −3.30×10−6 C is located at the origin and has velocity υ⃗ =(7.50×104m/s)ι^+((−4.90)×104m/s)j^. Calculate the magnetic field produced by this charge at the point x = 0.230 m , y = -0.340 m , z = 0?   

A particle with a charge of −1.24×10−8C is moving with instantaneous velocity v⃗ = (4.19×104m/s)i^ +...

A particle with a charge of −1.24×10−8C is moving with instantaneous velocity v⃗ = (4.19×104m/s)i^ + (−3.85×104m/s)j^ . Part A What is the force exerted on this particle by a magnetic field B⃗  = (1.40 T ) i^? Enter the x, y, and z components of the force separated by commas. Part B What is the force exerted on this particle by a magnetic field B⃗  = (1.40 T ) k^? Please solve and show how you get the z component from...

A point charge q1 = 4.80×10−6 C located at the point (0,   0.45  m, 0), has a velocity...

A point charge q1 = 4.80×10−6 C located at the point (0,   0.45  m, 0), has a velocity v⃗ 1= − 6×105 m/sι^+ 3×105 m/s k^ . Point charge q2 = −2.00×10−6 Clocated at the point (0.5  m, 0, 0) has a velocity  v⃗ 2=  5.6×105 m/s j^ − 5.25×105 m/s k^ . At this instant, what is the magnetic force that q1 exerts on q2? Enter the x, y, and z components of the force separated by commas. Fx, Fy, Fz = ___, ___,...

A particle has a charge of q = +5.6 μC and is located at the origin....

A particle has a charge of q = +5.6 μC and is located at the origin. As the drawing shows, an electric field of Ex = +213 N/C exists along the +x axis. A magnetic field also exists, and its x and y components are Bx = +1.0 T and By = +1.6 T. Calculate the force (magnitude and direction) exerted on the particle by each of the three fields when it is (a) stationary, (b) moving along the +x...

A positive charge q = 3.20 10-19 C moves with a velocity vector v = (2.00...

A positive charge q = 3.20 10-19 C moves with a velocity vector v = (2.00 x̂ + 3.00 y hat - 1.20 ẑ) m/s through a region where both a uniform magnetic field and a uniform electric field exist. (a) Calculate the total force on the moving charge (in unit-vector notation) taking vector B = (2.00 x̂ + 4.00 y hat + 0.900 ẑ) T and vector E = (4.20 x̂ - y hat - 2.00 ẑ) V/m. Fx...

A positive charge, q​1​​=2.20nC , is located at the origin (x=0 m,y=0 m). A negative charge,q​2​​=−6.00nC,...

A positive charge, q​1​​=2.20nC , is located at the origin (x=0 m,y=0 m). A negative charge,q​2​​=−6.00nC, is located on the x-axis at x=4 m,y=0 m). Calculate the magnitude of the electric field at the location marked by the letter “X” on the figure below at (x=4 m,y=3 m).  

A -4.80 μC charge is moving at a constant speed of 6.80×105 m/s in the +x−direction...

A -4.80 μC charge is moving at a constant speed of 6.80×105 m/s in the +x−direction relative to a reference frame. At the instant when the point charge is at the origin, what is the magnetic-field vector it produces at the following points. Part A x=0.500m,y=0, z=0 Enter your answers numerically separated by commas. Part B x=0, y=0.500m, z=0 Part C x=0.500m, y=0.500m, z=0 Enter your answers numerically separated by commas. Part D x=0, y=0, z=0.500m

A particle of charge -3 C is momentarily located at the position (4,2,7) [all distances in...

A particle of charge -3 C is momentarily located at the position (4,2,7) [all distances in meters]. The particle's velocity is 450i^+150j^+500k^ [in m/s] What is the magnetic field vector due to the particle at the position (8,6,7)? b.) At that same instant, a second particle of charge 11 C is momentarily located at the origin, moving along the positive x-axis with a speed of 2000 m/s. What is the total magnetic field at the target position from the previous...