An electron and a 0.0360-kg bullet each have a velocity of magnitude 480 m/s, accurate to...

(a) An electron and a 0.0260 kg bullet each have a velocity of magnitude 490 m/s,...

(a) An electron and a 0.0260 kg bullet each have a velocity of magnitude 490 m/s, accurate to within 0.0100%. Within what lower limit could we determine the position of each object along the direction of the velocity? (Give the lower limit for the electron in mm and that for the bullet in m.) for the electron mmf or the bullet m (b) What If? Within what lower limit could we determine the position of each object along the direction...

An electron and a 0.046 0-kg bullet each have a velocity of magnitude 490 m/s, accurate...

An electron and a 0.046 0-kg bullet each have a velocity of magnitude 490 m/s, accurate to within 0.010 0%. Within what lower limit could we determine the position of each object along the direction of the velocity? for the electron ____________________mm for the bullet _____________________m

DO PART B ONLY An electron and a 0.0340 kg bullet each have a velocity of...

DO PART B ONLY An electron and a 0.0340 kg bullet each have a velocity of magnitude 450 m/s, accurate to within 0.0100%. Within what lower limit could we determine the position of each object along the direction of the velocity? (Give the lower limit for the electron in mm and that for the bullet in m.) (b) What If? Within what lower limit could we determine the position of each object along the direction of the velocity if the...

DO PART B ONLY An electron and a 0.0340 kg bullet each have a velocity of...

DO PART B ONLY An electron and a 0.0340 kg bullet each have a velocity of magnitude 450 m/s, accurate to within 0.0100%. Within what lower limit could we determine the position of each object along the direction of the velocity? (Give the lower limit for the electron in mm and that for the bullet in m.) PART A ANSWERS ::1.2867mm for electron for bullet 3.44e-32m Please explain que below,(b) What If? Within what lower limit could we determine the...

A bullet leaves the barrel of a weapon with an initial horizontal velocity of 480 m/s....

A bullet leaves the barrel of a weapon with an initial horizontal velocity of 480 m/s. Find the horizontal and vertical displacements after 7 s. (Ignore the effects of air resistance.)

A bullet is launched with an initial speed of 1245 m/s. The initial velocity in the...

A bullet is launched with an initial speed of 1245 m/s. The initial velocity in the y-direction is 515 m/s and the initial velocity in the x-direction is -1208 m/s. When the bullet reaches the peak of its trajectory, what is the velocity and the acceleration in the x-direction and what is the velocity and the acceleration in the y-direction? Consider up to be positive. Please include a diagram and an explanation of each step. Do you use the max...

A pistol fires a 0.0050-kg bullet with a muzzle velocity of 1000.0 m/s. The bullet then...

A pistol fires a 0.0050-kg bullet with a muzzle velocity of 1000.0 m/s. The bullet then strikes a 10.0-kg wooden block resting on a horizontal frictionless surface and becomes embedded in the block. The block and bullet then slide across the surface. What was work done on the block and the impulse delivered to the bullet during the collision? a. 250J, 12.5N-s b. 12J, 12.5N-s c. 1.2J and -5.0N-s d. 0.15J, -2.5N-s e. 38J, 7.5N-s please show work will rate!!

A particle m1 = 0.500 kg moving with a velocity of v1 = (3.60 m/s, 25.0°)...

A particle m1 = 0.500 kg moving with a velocity of v1 = (3.60 m/s, 25.0°) collides and sticks with another particle m2 = 1.50 kg moving with a velocity of v2 = (2.00 m/s, 180.0°). Find the final velocity of the system after the collision. Find the ij vector and the magnitude and direction using the vector components method. Then use the graphical method to scale to find the magnitude and direction. The two methods should compare within a...

Consider the three velocity vectors listed below: • A ⃗ with a magnitude of 25.0 m/s...

Consider the three velocity vectors listed below: • A ⃗ with a magnitude of 25.0 m/s in the direction 25◦ S of W • B⃗ with a magnitude of 18.5 m/s due N • C⃗ with a magnitude of 22.0 m/s in the direction 35◦ E of S Draw a vector diagram showing all three vectors and calculate the x- and y-components of each vector. Use a coordinate system where the +x direction points east and the +y direction points...

a) An electron has a velocity of 7.0 x 106 m/s in the positive x direction...

a) An electron has a velocity of 7.0 x 106 m/s in the positive x direction at a point where the magnetic field has the components Bx = 3.0 T, By = 2.5 T, and Bz = 2.0 T. What is the magnitude of the acceleration of the electron at this point (in 1018 m/s2)? (me = 9.11 x 10-31 kg, e = 1.6 x 10-19 C) b) A particle (q = 5.0 nC, m = 3.0 μg) moves in...