A dust particle has an excess charge of 4.0×106 electrons and a mass of 6.0×10−8g. It...
A dust particle has an excess charge of 4.0×106 electrons and a mass of 6.0×10−8g. It is initially held at d=1.0×10−3m directly above a fixed object of the same size that is charged with the same number of electrons. Both objects are in an evacuated container.
initial force= 3.7 x 10^-9 N
A) Determine the maximum height of the dust particle after its release measured from its initial position?
B) Determine the initial acceleration of the dust particle?
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A dust particle has an excess charge of 4.0×106 electrons and a
mass of 6.0×10−8g. It...
A dust particle has an excess charge of 4.0×106 electrons and a mass of 6.0×10−8g. It...
A dust particle has an excess charge of 4.0×106 electrons and a mass of 6.0×10−8g. It is initially held at d=1.0×10−3m directly above a fixed object of the same size that is charged with the same number of electrons. Both objects are in an evacuated container. initial force= 3.7 x 10^-9 N A) Determine the maximum height of the dust particle after its release measured from its initial position (0.628 m is not the answer)? B) Determine the initial acceleration...
A dust particle has an excess charge of 4.0×106 electrons and a mass of 5.0×10−8g. It...
A dust particle has an excess charge of 4.0×106 electrons and a mass of 5.0×10−8g. It is initially held at d=1.0×10−3m directly above a fixed object of the same size that is charged with the same number of electrons. Both objects are in an evacuated container. A) Determine the maximum height of the dust particle after its release measured from its initial position. B) Determine the initial force exerted on the dust particle by the fixed charge.
A dust particle has an excess charge of 4.0×106 electrons and a mass of 5.0×10−8g. It...
A dust particle has an excess charge of 4.0×106 electrons and a mass of 5.0×10−8g. It is initially held at d=1.0×10−3m directly above a fixed object of the same size that is charged with the same number of electrons. Both objects are in an evacuated container. A) Determine the maximum height of the dust particle after its release measured from its initial position. The answer is NOT 1.7X10^-3 B)Determine the initial acceleration of the dust particle The answer is NOT...
A dust particle has an excess charge of 3.0×106electrons and a mass of 4.0×10−8g. It is...
A dust particle has an excess charge of 3.0×106electrons and a mass of 4.0×10−8g. It is initially held at d=1.0×10−3m directly above a fixed object of the same size that is charged with the same number of electrons. Both objects are in an evacuated container. Part A: Determine the maximum height of the dust particle after its release measured from its initial position. Part B: What quantities can be determined using the given data? Check all that apply. Check all...
A dust particle has an excess charge of 3.0× 10 6 electrons and a mass of...
A dust particle has an excess charge of 3.0× 10 6 electrons and a mass of 9.0× 10 −8 g . It is initially held at d=1.0× 10 −3 m directly above a fixed object of the same size that is charged with the same number of electrons. Both objects are in an evacuated container. Determine the maximum height of the dust particle after its release measured from its initial position. What quantities can be determined using the given data?...
One particle has a mass of 3.50 x 10-3 kg and a charge of +7.39 μC....
One particle has a mass of 3.50 x 10-3 kg and a charge of +7.39 μC. A second particle has a mass of 7.65 x 10-3 kg and the same charge. The two particles are initially held in place and then released. The particles fly apart, and when the separation between them is 0.184 m, the speed of the 3.50 x 10-3 kg-particle is 180 m/s. Find the initial separation between the particles.
One particle has a mass of 3.11 x 10-3 kg and a charge of +7.57 μC....
One particle has a mass of 3.11 x 10-3 kg and a charge of +7.57 μC. A second particle has a mass of 6.91 x 10-3 kg and the same charge. The two particles are initially held in place and then released. The particles fly apart, and when the separation between them is 0.165 m, the speed of the 3.11 x 10-3 kg-particle is 152 m/s. Find the initial separation between the particles.
ne particle has a mass of 3.44 x 10-3 kg and a charge of +7.61 μC....
ne particle has a mass of 3.44 x 10-3 kg and a charge of +7.61 μC. A second particle has a mass of 8.14 x 10-3 kg and the same charge. The two particles are initially held in place and then released. The particles fly apart, and when the separation between them is 0.127 m, the speed of the 3.44 x 10-3 kg-particle is 119 m/s. Find the initial separation between the particles.
one partide his mass of 2.1S ioShg and acharge of .6.0·uc. A seco d particle has...
one partide his mass of 2.1S ioShg and acharge of .6.0·uc. A seco d particle has a mass of 7.35 x iO-3 kg and the same charge. The two partides are initially held in plac e and then released. The particles ly apart, and when the separation between them is 0.107 m, the speed of the 2.65 x 103 ko-particle is 152 m/s. Find the initial separation between the particles. Units Question Attempts: O of 3 used SAVE FOR LATER...
One particle has a mass of 4.87 times 10^-3 kg and a charge of +7.68 mu...
One particle has a mass of 4.87 times 10^-3 kg and a charge of +7.68 mu C. A second particle has a mass 7.72 times 10^-3 kg and the same charge. The two particles are initially held in place and then released. The particles fly apart, and when the separation between them is 0.133 m, the speed of the 4.87 times 10^-3 kg particle is 161 m/s. Find the initial separation between the particles. Number Units
one partide his mass of 2.1S ioShg and acharge of .6.0·uc. A seco d particle has a mass of 7.35 x iO-3 kg and the same charge. The two partides are initially held in plac e and then released. The particles ly apart, and when the separation between them is 0.107 m, the speed of the 2.65 x 103 ko-particle is 152 m/s. Find the initial separation between the particles. Units Question Attempts: O of 3 used SAVE FOR LATER...
One particle has a mass of 4.87 times 10^-3 kg and a charge of +7.68 mu C. A second particle has a mass 7.72 times 10^-3 kg and the same charge. The two particles are initially held in place and then released. The particles fly apart, and when the separation between them is 0.133 m, the speed of the 4.87 times 10^-3 kg particle is 161 m/s. Find the initial separation between the particles. Number Units
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