Two identical nano-particles each contain 10 atoms. One nano-particle is on top of the other, and...
Question 8 of 10> Two particles, one with charge-5.45 × 10-6 C and the other with charge 7.75 × 10-6 C, are 0.0734 m apart. What is the magnitude of the force that one particle exerts on the other? magnitude of force: Two new particles with identical positive charge q3 are placed the same 0.0734 m apart. The force between them is measured to be the same as that between the original particles. What is g3 pling Learning, Inc. about...
Two particles, one with charge -2.09 x 10°C and the other with charge 1.87 x 10 mapnitude of the force that one particle exerts on the other? C, are 0.0659 m apart. What is the magnitude of force Two new particles with identical positive charges are placed the same 0.0639 m apart. The force between them is measured to be the same is that between the original particles. What is q?
Two particles, one with charge −4.61×10−6 C and the other with charge 6.07×10−6 C , are 0.0359 m apart. What is the magnitude of the force that one particle exerts on the other? magnitude of force: N Two new particles with identical positive charge q3 are placed the same 0.0359 m apart. The force between them is measured to be the same as that between the original particles. What is q3? q3= C
Ive calculated a,b
need C and D , please can you show all workings
Two isolated boxes A and B each have single-particle energy levels 0,e,2,3e,4e,.. Box A contains two particles with total energy 2, whilst box B contains three particles with total energy 3e. The particles are distinguishable and do not interact with each other (a) Determine the total number of microstates Ω. and Ωв accessible to each box sepa- rately and show that the total number of microstates...
Two isolated boxes A and B each have single-particle energy levels 0,✏, 2✏, 3✏, 4✏, . . .. Box A contains two particles with total energy 2✏, whilst box B contains three particles with total energy 3✏. The particles are distinguishable and do not interact with each other. (a) Determine the total number of microstates ⌦A and ⌦B accessible to each box separately and show that the total number of microstates accessible to them jointly is, ⌦ = 30. 8...
ent Score:53 Resources ive Hint Check Answer of 10> Two particles, one with charge -2.09 x 10 C and the other with charge 1.87 x 10 magnitude of the force that one particle exerts on the other? C, are 0.0209 m apart. What is the magnitude of force: Two new particles with identical positive charge gs are placed the same 0,0209 m apart. The force between them is measured o be the same as that between the original particles. What...
Two particles, one with charge −7.97×10−6 C−7.97×10−6 C and the other with charge 4.39×10−6 C4.39×10−6 C , are 0.0659 m0.0659 m apart. What is the magnitude of the force that one particle exerts on the other? magnitude of force: NN Two new particles with identical positive charge ?3q3 are placed the same 0.0659 m0.0659 m apart. The force between them is measured to be the same as that between the original particles. What is ?3q3 ? ?3q3 = C
Two particles, one with charge -4.61 x 10^-6 C and one with charge 3.55 times 10^-6 C, are 0.0734 meters apart. What is the magnitude of the force that one particle exerts on the other? Two new particles, which have identical positive charge q_3. are placed the same 0.0734 meters apart, and the force between them is measured to be the same as that between the original particles. What is q_3?
Two particles, one with charge-1.25 x 10° C and one with charge 2.71 x 106 C, are 0.0809 meters apart. What is the magnitude of the force that one particle exerts on the other? Number Two new particles, which have identical positive charge q3, are placed the same 0.0809 meters apart, and the force between them is measured to be the same as that between the original particles. What is q3? Number
Why is the following situation impossible? Two identical dust particles of mass 1.00 µg are floating in empty space, far from any external sources of large gravitational or electric fields, and at rest with respect to each other. Both particles carry electric charges that are identical in magnitude and sign. The gravitational and electric forces between the particles happen to have the same magnitude, so each particle experiences zero net force and the distance between the particles remains constant.