Answer:
A.The electric field points to the left because the force on a negative charge is opposite to the direction of the field.
Explanation:
As we know that electrostatic force on a charge in external electric field is given as
so here the force and electric field will be in same direction if charge is positive and if the charge is negative then force will be in opposite direction to the electric field.
So we know that since the electron is negatively charged so the force on electron must be opposite to the electric field present in that region.
So correct answer will be
A.The electric field points to the left because the force on a negative charge is opposite to the direction of the field.
A
North and east are perpendicular directions hence we can use them as the basis of our coordinate system. The coordinates of this point can then simply be represented as
P = 1.4 N + 4.8 E (km)
The magnitude can be given by the right triangle formula :
P =
= 5 km
Direction = atan(N/E) = 16.3 deg north of east = 73.7 deg east of north
Answer:
3.At equilibrium, its instantaneous velocity is at maximum
Explanation:
The motion of a mass on the end of a spring is a simple harmonic motion. In a simple harmonic motion, the total mechanical energy of the system is constant, and it is sum of the elastic potential energy (U) and the kinetic energy of the mass (K):
where
k is the spring constant
x is the displacement of the spring from equilibrium
m is the mass
v is the speed
As we see from the formula, since the total energy E is constant, when the displacement (x) increases, the speed (v) increases, and viceversa. Therefore, when the mass is at its equilibrium position (which corresponds to x=0), the velocity of the mass will be maximum.