A point in space has a voltage of 4.5 V. Will a charged particle accelerate at...

Each alpha particle in a beam of alpha particles has a kinetic energy of 5.0 MeV....

Each alpha particle in a beam of alpha particles has a kinetic energy of 5.0 MeV. Through what potential difference would you have to accelerate these alpha particles in order that they would have enough energy so that if one is fired head-on at a gold nucleus it could reach a point 1.0x10^-14 m from the center of the nucleus? I know that the answer is delta V = 9e6 Volts I am struggling to get past KEi = 5.0...

A region of space has a uniform electric field of magnitude 5.9x10^3 V/m directed vertically and...

A region of space has a uniform electric field of magnitude 5.9x10^3 V/m directed vertically and a uniform magnetic field of magnitude 1.93T directed horizontally. Determine the speed of a charged particle that can move through this region of space in a straight line that is perpendicular to both fields.

A charged particle(m=10.55g, q= -7.22 μC) localized at a point A has a speed of 0.86m/s....

A charged particle(m=10.55g, q= -7.22 μC) localized at a point A has a speed of 0.86m/s. This is moving to point B where the electric potential is 250v higher then in point A. What is the kinetic energy of the particle when it reaches B? (assume that only electric forces are acting on the particle).

A point particle that has a charge of +11.9 nC is at the origin. (a) What...

A point particle that has a charge of +11.9 nC is at the origin. (a) What is (are) the shape(s) of the equipotential surfaces in the region around this charge? This answer has not been graded yet. (b) Assuming the potential to be zero at r = ∞, calculate the radii of the five surfaces that have potentials equal to 20.5 V, 42.5 V, 64.5 V, 86.5 V, and 108.5 V, and sketch them to scale centered on the charge....

A positively charged particle moves in the positive z-direction. The magnetic force on the particle is...

A positively charged particle moves in the positive z-direction. The magnetic force on the particle is in the positive y-direction. What can you conclude about the z-component of the magnetic field at the particle’s position? A. Bx > 0 B. Bx ​= 0 C. Bx ​< 0 D. Not enough information to decide THE ANSWER IS NOT D ACCORDING TO MY PROFESSOR. PLEASE EXPLAIN.

1) A charged particle leaves a potential difference with a speed of 1221 m/s headed East....

1) A charged particle leaves a potential difference with a speed of 1221 m/s headed East. The particle then enters a uniform magnetic field directed into the page with magnitude 42.42T. When the particle enters the uniform field, it undergoes a specific type of motion, of which begins turning the particle toward the south. (a) Draw and fully label a diagram of the situation described above, including the motion of the particle inside the B-field. (b) Once the particle enters...

You have purchased an inexpensive voltage supply that has a nominal supply value of 5 V....

You have purchased an inexpensive voltage supply that has a nominal supply value of 5 V. You wish to determine if the supply actually provides this voltage. So you use a multi-meter to measure the supply voltage under different load conditions. You generate the data Measurement (V) 4.97 4.95 4.98 4.99 5.01 5.00 4.98 5.00 Do a statistical analysis on this data to determine if the supply voltage is actually 5 V. What does your analysis indicate? The supply voltage...

Lab 20: Electric Field and Potential Pre Lab Questions (Part 2) 6. How can you tell...

Lab 20: Electric Field and Potential Pre Lab Questions (Part 2) 6. How can you tell from an electric field map whether an electric field is strong or weak? 7. What would the electric field lines look like if the electric field was constant? 8. Can there be a point in space where there is an electric potential but not electric field? Can there be a point in space where there is an electric field but no electric potential? Explain...

An ac generator supplies a peak (not rms) voltage of 208 V at 60.0 Hz. The...

An ac generator supplies a peak (not rms) voltage of 208 V at 60.0 Hz. The generator is connected in series with a 200-mH inductor, a 45-?F capacitor and a 100-? resistor. Determine the rms current in the circuit. (a) 1.5 A, V leads I (b) 1.1 A, I leads V (c) 1.5 A, I leads V (d) 2.11 A, V leads I   * I don't understand the whole V lead, I lead part or how to know it goes...

A ?+ is a subatomic particle called a Pion that is positively charged. It has a...

A ?+ is a subatomic particle called a Pion that is positively charged. It has a mean lifetime of about 26 ns (26x10-9 s) as measured in the pion's frame of reference. Suppose a pion is created in the atmosphere and is moving at 0.856c relative to a stationary observer on Earth. How far in meters does the pion travel during its lifetime according to the Earth-bound observer? Assume 3 significant figures. The formula d=speed x time DOES NOT WORK...