What potential difference is needed to accelerate a He+ ion (charge +e, mass 4u) from rest...

What potential difference is needed to accelerate a He+He+ ion (charge +e+e, mass 4uu) from rest...

What potential difference is needed to accelerate a He+He+ ion (charge +e+e, mass 4uu) from rest to a speed of 2.0×106 m/sm/s ? Round to 2 significant figures.

1. What potential difference is needed to accelerate a He+ ion (charge +e, mass 4u) from...

1. What potential difference is needed to accelerate a He+ ion (charge +e, mass 4u) from rest to a speed of 1.1×106 m/s ? 2. Two 2.00 cm × 2.00 cm plates that form a parallel-plate capacitor are charged to ± 0.708 nC . a) What is the electric field strength inside the capacitor if the spacing between the plates is 1.30 mm ? b)What is potential difference across the capacitor if the spacing between the plates is 1.30 mm...

How much force is needed for a pitcher to accelerate a .20kg ball from rest to...

How much force is needed for a pitcher to accelerate a .20kg ball from rest to a speed of 23 m/s if he throws through a distance of 2.2m?

An ion of mass m and charge q is accelerated by a potential difference of V...

An ion of mass m and charge q is accelerated by a potential difference of V and allowed to enter a magnetic field B. In the field it moves in a semi-circle, striking photographic plate at a distance x from the slit. Show that the mass of the ion is given by ?=(?^2??^2) /8?.

Calculate the speed of a proton after it accelerates from rest through a potential difference of...

Calculate the speed of a proton after it accelerates from rest through a potential difference of 220 V . (answer in m/s) Calculate the speed of an electron after it accelerates from rest through a potential difference of 220 V . (answer in m/s) A point charge of -8.3 μC is at the origin. What is the electric potential at (3.0 m, 0)? What is the electric potential at ( - 3.0m,0)? What is the electric potential at (3.0m, -...

A charge q=-4.9nC and mass m=18.1picograms is accelerated from the rest through a potential difference of...

A charge q=-4.9nC and mass m=18.1picograms is accelerated from the rest through a potential difference of ΔV=173kV. It enters a region where a uniform B=66mT magnetic field is perpendicular to the velocity of the charge. Determine the radius of the path this charge will follow in the magnetic field( in meters).

An evacuated tube uses a potential difference of ΔV = 0.58 kV to accelerate electrons, which...

An evacuated tube uses a potential difference of ΔV = 0.58 kV to accelerate electrons, which then hit a copper plate and produce X-rays. Write an expression for the non-relativistic speed of these electrons v in terms of e, ΔV, and m, assuming the electrons start from rest. Calculate the non-relativistic speed of these electrons v in m/s. & The temperature near the center of the Sun is thought to be about 15 million degrees Celsius, that is, 1.5 ×...

(a) How much energy is required to accelerate a proton from rest to 0.7c? (Rest mass...

(a) How much energy is required to accelerate a proton from rest to 0.7c? (Rest mass = 938.27 MeV/c2 (b) What is the momentum of the proton once it reaches this speed? (Express your answer in units of MeV/c.) (c) Would more, less, or the same amount of energy be required to accelerate an electron from rest to this speed?

Suppose that in a lightning flash the potential difference between a cloud and the ground is...

Suppose that in a lightning flash the potential difference between a cloud and the ground is 1.3×109 V and the quantity of charge transferred is 31 C. (a) What is the change in energy of that transferred charge? (b) If all the energy released could be used to accelerate a 1100 kg car from rest, what would be its final speed?

A positive ion is accelerated from a source S by a potential difference of 1000 V....

A positive ion is accelerated from a source S by a potential difference of 1000 V. The charge on the ion is equal to the magnitude of charge on an electron. After acceleration, the ion enters inside a uniform magnetic field of strength 75 mT, perpendicularly. The ion moves in a circle of diameter x. Find the value of x in cm.[6] Mass of the ion is 4.2´10-25 kg.