The electric potential in a certain region is expressed by V=6x−8xy2−8y+6yz−4z2 volts. The magnitude of the force acting on a charge of 2C sityuated at the origin wil be:-
2N
6N
8N
20N
A
2N
B
6N
C
8N
D
20N
Open in App
Solution
Verified by Toppr
Was this answer helpful?
12
Similar Questions
Q1
The electric potential in a certain region is expressed by V=6x−8xy2−8y+6yz−4z2 volts. The magnitude of the force acting on a charge of 2C sityuated at the origin wil be:-
View Solution
Q2
102.The electric potential in some region is expressed by V=6x - 8xy2 - 8y + 6yz - 4z2 volt. The magnitude of force acting on a charge of 2C situated at the origin will be
View Solution
Q3
The electric potential (in volt) a region given by V=6x−8xy2−8y+6yz−4x2 Then electric force acting on a point charge of 2c placed at the origin will be
View Solution
Q4
Electric potential is given by V=6x−8xy2−8y+6yz−4z2. Then electric force acting on a 2C point charge placed at origin will be?
View Solution
Q5
The electric potential in a certain region is expressed by $$ V = 6x - 8xy ^{2} - 8y + 6yx - 4z ^{2} $$ volts . The magnetic of the force acting on a change of 2 C situated at the origin will be : -