A speck of dust with mass 12 mg and electric charge 10 μC is released from...
A speck of dust with mass 12 mg and electric charge 10 μC is released from rest in a uniform electric field of magnitude 850 N/C. Calculate the acceleration of the dust speck, ignoring gravitation. ______ m/s2
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A speck of dust with mass 12 mg and electric charge 10 μC is
released from...
A 4.5 μC point charge with a mass of 0.075 g is released from rest in...
A 4.5 μC point charge with a mass of 0.075 g is released from rest in a uniform electric field. a) If the electric field is 680 N/C, what is the acceleration of the charge? b) How long does it take the charge to go 25 m? c) What is the speed of the charge at that time? Please hand write out the answer and the work that goes along with it
A small mass (speck of dust ) with mass=6.000000 micrograms also has a charge of q=20.000000nC....
A small mass (speck of dust ) with mass=6.000000 micrograms also has a charge of q=20.000000nC. The mass is initially moving 10.0m/s in a direction ACROSS field lines, in a region containing a uniform Electric Field of 1000N/C. What is the magnitude of the electric force on the charge? Give your answer in microNewtons-- -enter the number only.
A small mass (speck of dust ) with mass=10.000000 micrograms also has a charge of q=70.000000nC....
A small mass (speck of dust ) with mass=10.000000 micrograms also has a charge of q=70.000000nC. The mass is initially moving 20.0m/s in a direction ACROSS field lines, in a region containing a uniform Electric Field of 2000N/C. What is the magnitude of the electric force on the charge? Give your answer in microNewtons---enter the number only.
A small mass (speck of dust) with mass=5.000000 micrograms also has a charge of q=60.000000nC. The...
A small mass (speck of dust) with mass=5.000000 micrograms also has a charge of q=60.000000nC. The mass is initially moving 20.0m/s in a direction ACROSS field lines, in a region containing a uniform Electric Field of 2000N/C. What is the magnitude of the electric force on the charge? Give your answer in microNewtons-- -enter the number only.
A small mass (speck of dust ) with mass=7.000000 micrograms also has a charge of q=90.000000nC....
A small mass (speck of dust ) with mass=7.000000 micrograms also has a charge of q=90.000000nC. The mass is initially moving 20.0m/s in a direction ACROSS field lines, in a region containing a uniform Electric Field of 2000N/C. What is the magnitude of the electric force on the charge? Give your answer in microNewtons-- -enter the number only. Your Answer:
An electron is released from rest in a uniform electric field of magnitude 1.63 × 104...
An electron is released from rest in a uniform electric field of magnitude 1.63 × 104 N/C. Calculate the acceleration of the electron. (Ignore gravitation.)
An electron is released from rest in a uniform electric field of magnitude 2.16 x 104...
An electron is released from rest in a uniform electric field of magnitude 2.16 x 104 N/C. Calculate the acceleration of the electron. (Ignore gravitation.) Number Units
A charged dust speck with a mass of 6.1 g dust loses 27 mJ of kinetic...
A charged dust speck with a mass of 6.1 g dust loses 27 mJ of kinetic energy as the electric potential along its path decreases by 124 V. (a) How much work was done on the dust speck? Whet mJ (b) How much did the dust speck's electric potential energy change, assuming that the electric force is the only one acting on it? mJ (c) What is the net charge on the dust speck? (d) What was the dust speck's...
An object of mass 3.0 mg and charge 2.0 μC is observed accelerating at a rate...
An object of mass 3.0 mg and charge 2.0 μC is observed accelerating at a rate of 5.0 × 10-3 m/s2 under the sole influence of electric forces. The magnitude of the electric field experienced by the object is ... 1.3 × 102 N/C 1.5 × 10-1 N/C 1.5 × 10-2 N/C 7.5 × 10-3 N/C 3.0 × 10-14 N/C
A charged object of mass 3.2 g and charge 1.5 µC is released from rest in...
A charged object of mass 3.2 g and charge 1.5 µC is released from rest in a uniform electric field and accelerates a rate of 3.9 m/s2. What is the magnitude of the electric field? give your answer in N/C 2- Three identical charges of 18.8 nC are placed on the corners of an equilateral triangle, each side having length 6.5 mm. What force (magnitude) is placed on any one of the vertex charges?
A small mass (speck of dust ) with mass=6.000000 micrograms also has a charge of q=20.000000nC. The mass is initially moving 10.0m/s in a direction ACROSS field lines, in a region containing a uniform Electric Field of 1000N/C. What is the magnitude of the electric force on the charge? Give your answer in microNewtons-- -enter the number only.
A small mass (speck of dust ) with mass=10.000000 micrograms also has a charge of q=70.000000nC. The mass is initially moving 20.0m/s in a direction ACROSS field lines, in a region containing a uniform Electric Field of 2000N/C. What is the magnitude of the electric force on the charge? Give your answer in microNewtons---enter the number only.
A small mass (speck of dust) with mass=5.000000 micrograms also has a charge of q=60.000000nC. The mass is initially moving 20.0m/s in a direction ACROSS field lines, in a region containing a uniform Electric Field of 2000N/C. What is the magnitude of the electric force on the charge? Give your answer in microNewtons-- -enter the number only.
A small mass (speck of dust ) with mass=7.000000 micrograms also has a charge of q=90.000000nC. The mass is initially moving 20.0m/s in a direction ACROSS field lines, in a region containing a uniform Electric Field of 2000N/C. What is the magnitude of the electric force on the charge? Give your answer in microNewtons-- -enter the number only. Your Answer:
An electron is released from rest in a uniform electric field of magnitude 2.16 x 104 N/C. Calculate the acceleration of the electron. (Ignore gravitation.) Number Units
A charged dust speck with a mass of 6.1 g dust loses 27 mJ of kinetic energy as the electric potential along its path decreases by 124 V. (a) How much work was done on the dust speck? Whet mJ (b) How much did the dust speck's electric potential energy change, assuming that the electric force is the only one acting on it? mJ (c) What is the net charge on the dust speck? (d) What was the dust speck's...
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