A thin cylindrical shell of radius R₁ = 4.0 cm is surrounded by a second cylindrical shell of radius R₂ = 9.0 cm, as in ( Figure 1). Both cylinders are 15 m long and the inner one carries a total charge Q₁ = -0.68 nC and the outer one Q2 = +1.56 nC.

A thin cylindrical shell of radius R1 = 4.0 cm is surrounded by a second cylindrical shell of radius R2 = 9.0 cm, as in (Figure 1). Both cylinders are 15 m long and the inner one carries a total charge Q1 = -0.68 nCand the outer one Q2 = +1.56 nC.

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A thin cylindrical shell of radius R₁ = 4.0 cm is surrounded by a second cylindrical shell of radius R2 = 9.0 cm, as in ( Figure 1). Both cylinders are 15 m long and the inner one carries a total charge Q₁ = -0.68 nC and the outer one Q2 = +1.56 nC. Figure R₂ R/R₁ 1 of 1 Part A If an electron (m = 9.1 × 10–³¹ kg) escaped from the surface of the inner cylinder with negligible speed, what would be its speed when it reached the outer cylinder? Express your answers with the appropriate units. Ve = Submit Part B 0 Up= = μĂ Value Request Answer If a proton (m = 1.67 × 10-27 kg) revolves in a circular orbit of radius R = 7.0 cm about the axis (i.e., between the cylinders), what must be its speed? Express your answers with the appropriate units. μà Units Value Units ? = ?