Questions
A beam of electrons is shot into a uniform downward electric field of magnitude 1.10 103...

A beam of electrons is shot into a uniform downward electric field of magnitude 1.10 103 N/C. The electrons have an initial velocity of 1.11 107 m/s, directed horizontally. The field acts over a small region, 5.00 cm in the horizontal direction. (a) Find the magnitude and direction of the electric force exerted on each electron. magnitude 1.76e-16 N Correct: Your answer is correct. direction Correct: Your answer is correct. (b) How does the gravitational force on an electron compare with the electric force? The gravitational force is much smaller than the electric force. The gravitational force is much bigger than the electric force. Correct: Your answer is correct. (c) How far has each electron moved in the vertical direction by the time it has emerged from the field? (d) What is the electron's vertical component of velocity as it emerges from the field? (Up is the positive y-direction.) (e) The electrons move an additional 19.4 cm after leaving the field. Find the total vertical distance that they have been deflected by the field.

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sorry found a solution!

sorry found a solution!

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At some instant, an alpha particle(q=+2e) has the coordinates(3.0,0.0,0.0)(nm) and is moving along the positive x-axis...

At some instant, an alpha particle(q=+2e) has the coordinates(3.0,0.0,0.0)(nm) and is moving along the positive x-axis with 500km/s while an electron at (0.0,4.0,0.0)(nm) is moving along the negative y-axis with 1000km/s.
A)SHOW ALL WORK
Find the magnitude and direction of the total magnetic field at the location(3.0,4.0,0.0)(nm)
B)SHOW ALL WORK
Find the magnitude and direction of the magnetic forces felt by the electron and alpha particle.

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A ladder is leaning against a vertical wall, and both ends of the ladder are at...

A ladder is leaning against a vertical wall, and both ends of the ladder are at the point of slipping. The coefficient of friction between the ladder and the horizontal surface is μ1 = 0.295 and the coefficient of friction between the ladder and the wall is μ2 = 0.153. Determine the maximum angle with the vertical the ladder can make without falling on the ground.

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A weightless spring scale is attached to two equal weights as shown below. The reading on...

A weightless spring scale is attached to two equal weights as shown below. The reading on the scale will be

       A) 0.
       B) W.
       C) 2W.
       D) (1/2)W.
       E) W2.

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A sphere with radius R has a charge density given by ρ = cr3. Use Gauss's...

A sphere with radius R has a charge density given by

ρ = cr3.

Use Gauss's law to find an expression for the magnitude of the electric field at a distance r from the center of the sphere, where we have the following. (Use the following as necessary: c, r, R, and ε0. Assume c is positive.)

(a)    

r < R


E =

  

(b)    

r > R


E =

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1)    A 2.00-kg package is released on a 53.1

1)    A 2.00-kg package is released on a 53.1

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1.A moving ball(1) collides elastically with an identical stationary ball (2). Ball(2) shoots off to the...

1.A moving ball(1) collides elastically with an identical stationary ball (2). Ball(2) shoots off to the right along the x axis. What is the final velocity of ball(1) and the final speed of ball (2)?

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2.a massless rigid rod with x1=0, m1=6kg, x2=1, m2=2kg

a.what is xc the centre of mass?

b.A force 8*10^10Ng^ (upward) hits m2 for deltaT=10^-10s.

the instant after, what is the final velocity of m2?

c.what is the final velocity of the center of mass and the final angular velocity about the centre of mass?

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Two particles, m1 = 2m and m2 = m, are suspended on massless cords of the...

Two particles, m1 = 2m and m2 = m, are suspended on massless cords of the same length l = 1.00 m so that they touch each other (see Fig. below). Particle 1 is displaced to an angle of 30

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How do I convert 29.35 W to J/sec? How do I convert 312 ft3s-1mi-2 to m3...

How do I convert 29.35 W to J/sec?

How do I convert 312 ft3s-1mi-2 to m3 min.-1km-2?

How do I convert from 2.2 km/hr to ft sec-1 and mi2 hr-1?

How do I convert from 5.4 ft sec-1 to cm sec-1 and m hr-1?

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Two train cars are on a straight, horizontal track. One car starts at rest and is...

Two train cars are on a straight, horizontal track. One car starts at rest and is put in motion with a constant acceleration of 1.48 m/s2. This car moves toward a second car that is 21.40 m away and moving at a constant speed of 3.79 m/s.

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A 10.0 cm tall pencil stands balanced on its eraser, 25.0 cm in front of a...

A 10.0 cm tall pencil stands balanced on its eraser, 25.0 cm in front of a mirror with radius of curvature of 1.00 m. Where will the image form, and how tall will the image be, if a) the mirror is concave, and b) the mirror is convex?

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A small block with mass 0.0450kg slides in a vertical circle of radius 0.575m on the...

A small block with mass 0.0450kg slides in a vertical circle of radius 0.575m on the inside of a circular track. During one of the revolutions of the block, when the block is at the bottom of its path, point A, the magnitude of the normal force exerted on the block by the track has magnitude 3.85N . In this same revolution, when the block reaches the top of its path, point B, the magnitude of the normal force exerted on the block has magnitude 0.685N .

How much work was done on the block by friction during the motion of the block from point A to point B?

Express your answer with the appropriate units.

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Can a piece of adhesive tape hold an electric charge? If so, will the charge be...

Can a piece of adhesive tape hold an electric charge? If so, will the charge be positive or negative? Can a predication be made of which material will be positive and which negative if any two insulators are rubbed together?

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Blocks A (mass 3.50 kg ) and B (mass 8.00 kg ) move on a frictionless,...

Blocks A (mass 3.50 kg ) and B (mass 8.00 kg ) move on a frictionless, horizontal surface. Initially, block B is at rest and block A is moving toward it at 2.00 m/s . The blocks are equipped with ideal spring bumpers. The collision is head-on, so all motion before and after the collision is along a straight line. Let +x be the direction of the initial motion of block A.

Find the maximum energy stored in the spring bumpers.

Find the velocity of block A when the energy stored in the spring bumpers is maximum.

Find the velocity of block B when the energy stored in the spring bumpers is maximum.

Find the velocity of block A after they have moved apart.

Find the velocity of B after they have moved apart.

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