If you were to separate all of the electrons and protons in 1 g (0.001 kg)...
If you were to separate all of the electrons and protons in 1 g (0.001 kg) of matter, you’d have about 96,000 C of positive charge and the same amount of negative charge. If you placed these charges 6.8 m apart, how strong would the attractive force between them be?
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If you were to separate all of the electrons and protons in 1 g
(0.001 kg)...
a) Calculate the electrical force between a gram of protons and the same number of electrons...
a) Calculate the electrical force between a gram of protons and the same number of electrons that are separated by 1 m. (There are about 5.979x1023 protons in a gram, each with a charge of +1.602x10-19 C; charge on an electron is the same magnitude but negative) b) Calculate the gravitational force between two 1g masses 1 meter apart, when F- Gmm2/r2 where G is equal to 6.67x10-11 N m2 / kg2 What is the magnitude difference between these two...
Please answer all parts. Thank you! PART A) PART B) A pair of electrically charged objects...
Please answer all parts. Thank you!
PART A)
PART B)
A pair of electrically charged objects attract each other with a force of 24 N when they are a distance of 2 m apart. If their charges stay the same, then what will be the attractive force between them when they are 8 m apart? Submit Answer Tries 0/2 A pair of point charges attract each other through Coulumb's interaction with a force of 2 N when they are placed...
SECTION 1 Consider an object of mass ! numbers of protons, neutro 50.01kg kg. Assume that...
SECTION 1 Consider an object of mass ! numbers of protons, neutro 50.01kg kg. Assume that it's made up of equal ons. Remember that protons and neutrons same mass individually, namely 1.7 x 1027 kg: electrons have negligible ; and that the charge of an individual proton (or electron) has mass by comparison magnitude 1.6 x 10 1s c (a) How many protons does the object contain? Answer:10 protons (b) Now imagine taking all the protons out of the object...
Please help! my calculations were wrong. Thank you! :) Two particles, one with charge -5.45 x...
Please help! my calculations were wrong. Thank you! :)
Two particles, one with charge -5.45 x 106 C and one with charge 3.55 x 106 C, are 0.0359 meters apart. What is the magnitude of the force that one particle exerts on the other? Number 135.18166N Two new particles, which have identical positive charge q3, are placed the same 0.0359 meters apart, and the force between them is measured to be the same as that between the original particles. What...
I need help on all three of these quiz-start-frame_auto.dznous 1 730956&isprv. &dre 1&qi: 2497386&dq1:0&dnb. Ο ime...
I need help on all three of these
quiz-start-frame_auto.dznous 1 730956&isprv. &dre 1&qi: 2497386&dq1:0&dnb. Ο ime Left:1:10:25 Keana Jones: Attempt 1 A25-g copper penny is given a charge of-4.0 penny? 10-9 C How many excess electrons are on the × 9.426 x 1010 electron 4. 296 x 1010 electrons 2.496 x 1010 electrons 1.946 × 1010 electrons Question 2 (12.5 points) Saving..* Protons in an atomic nucleus are typically 10-15 m apart. What is the electric force of repulsion between...
Write neat please. Show step by step please. Read instructions carefully. do all problems please. double...
Write neat please. Show step by step please. Read
instructions carefully. do all problems please. double check your
work. Box in answer please. Thank you
Question 29 1 pts Two charged particles repel each other with a force F. If the charge of one of the particles is doubled and the distance between them is also doubled, then the force will be OF/4. OF/2. OF 0 2F Question 30 1 pts Charge carriers in a metal are electrons rather than...
Question 3-8 points To the best of our knowledge the magnitudes of the negative charge on...
Question 3-8 points To the best of our knowledge the magnitudes of the negative charge on the electron and the positive charge on the proton are precisely equal. Imagine for the purposes of this question, however, that the charge on the proton is slightly larger than the charge on the electron (a) Do some research and determine (i) the number of electrons and the number of protons in a copper atom, and (ii) the mass of a copper atom. (2...
VERSIUN -B- nen a positive charge moves opposite to the direction of the electric field, A)...
VERSIUN -B- nen a positive charge moves opposite to the direction of the electric field, A) the field does positive work on it and the potential energy increases. B) the field does positive work on it and the potential energy decreases. C) the field does negative work on it and the potential energy increases. Motion D) the field does negative work on it and the potential energy decreases. 2) A strong lightning bort transfers about 40 C to Earth. How...
Pre-lab EM-1 Investigation in Electrostatics Read the chapter about electric charge in the textbook and answer...
Pre-lab EM-1 Investigation in Electrostatics Read the chapter about electric charge in the textbook and answer the following questions: Read lab manual EM-1 thoroughly. 1. A neutral body means: a. b. c. There is no charge in the body The is no electron in the body. The numbers of positive charge and negative charge in the body are the same. 2. An electric insulator is a material a. b. c. d. contains no electrons that has less electrons than protons...
I need help with all these please! Thanks! 1. Two identical metal balls are suspended by...
I need help with all these please! Thanks!
1. Two identical metal balls are suspended by insulating threads. Both balls have the same net charge. In this problem, do not assume the balls are point charges Ball 2 a. Draw a separate free-body diagram for each ball. Label the forces to indicate: . the object exerting the force, the object on which the force is exerted, • the type of force (gravitational, normal etc.), and • whether the force is...
a) Calculate the electrical force between a gram of protons and the same number of electrons that are separated by 1 m. (There are about 5.979x1023 protons in a gram, each with a charge of +1.602x10-19 C; charge on an electron is the same magnitude but negative) b) Calculate the gravitational force between two 1g masses 1 meter apart, when F- Gmm2/r2 where G is equal to 6.67x10-11 N m2 / kg2 What is the magnitude difference between these two...
Please answer all parts. Thank you!
PART A)
PART B)
A pair of electrically charged objects attract each other with a force of 24 N when they are a distance of 2 m apart. If their charges stay the same, then what will be the attractive force between them when they are 8 m apart? Submit Answer Tries 0/2 A pair of point charges attract each other through Coulumb's interaction with a force of 2 N when they are placed...
SECTION 1 Consider an object of mass ! numbers of protons, neutro 50.01kg kg. Assume that it's made up of equal ons. Remember that protons and neutrons same mass individually, namely 1.7 x 1027 kg: electrons have negligible ; and that the charge of an individual proton (or electron) has mass by comparison magnitude 1.6 x 10 1s c (a) How many protons does the object contain? Answer:10 protons (b) Now imagine taking all the protons out of the object...
Please help! my calculations were wrong. Thank you! :)
Two particles, one with charge -5.45 x 106 C and one with charge 3.55 x 106 C, are 0.0359 meters apart. What is the magnitude of the force that one particle exerts on the other? Number 135.18166N Two new particles, which have identical positive charge q3, are placed the same 0.0359 meters apart, and the force between them is measured to be the same as that between the original particles. What...
I need help on all three of these
quiz-start-frame_auto.dznous 1 730956&isprv. &dre 1&qi: 2497386&dq1:0&dnb. Ο ime Left:1:10:25 Keana Jones: Attempt 1 A25-g copper penny is given a charge of-4.0 penny? 10-9 C How many excess electrons are on the × 9.426 x 1010 electron 4. 296 x 1010 electrons 2.496 x 1010 electrons 1.946 × 1010 electrons Question 2 (12.5 points) Saving..* Protons in an atomic nucleus are typically 10-15 m apart. What is the electric force of repulsion between...
Write neat please. Show step by step please. Read
instructions carefully. do all problems please. double check your
work. Box in answer please. Thank you
Question 29 1 pts Two charged particles repel each other with a force F. If the charge of one of the particles is doubled and the distance between them is also doubled, then the force will be OF/4. OF/2. OF 0 2F Question 30 1 pts Charge carriers in a metal are electrons rather than...
Question 3-8 points To the best of our knowledge the magnitudes of the negative charge on the electron and the positive charge on the proton are precisely equal. Imagine for the purposes of this question, however, that the charge on the proton is slightly larger than the charge on the electron (a) Do some research and determine (i) the number of electrons and the number of protons in a copper atom, and (ii) the mass of a copper atom. (2...
VERSIUN -B- nen a positive charge moves opposite to the direction of the electric field, A) the field does positive work on it and the potential energy increases. B) the field does positive work on it and the potential energy decreases. C) the field does negative work on it and the potential energy increases. Motion D) the field does negative work on it and the potential energy decreases. 2) A strong lightning bort transfers about 40 C to Earth. How...
Pre-lab EM-1 Investigation in Electrostatics Read the chapter about electric charge in the textbook and answer the following questions: Read lab manual EM-1 thoroughly. 1. A neutral body means: a. b. c. There is no charge in the body The is no electron in the body. The numbers of positive charge and negative charge in the body are the same. 2. An electric insulator is a material a. b. c. d. contains no electrons that has less electrons than protons...
I need help with all these please! Thanks!
1. Two identical metal balls are suspended by insulating threads. Both balls have the same net charge. In this problem, do not assume the balls are point charges Ball 2 a. Draw a separate free-body diagram for each ball. Label the forces to indicate: . the object exerting the force, the object on which the force is exerted, • the type of force (gravitational, normal etc.), and • whether the force is...
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