Answer:
Distance d=8.63m
Explanation:
mass of object m=47.5 kg
Initial velocity vi=0 m/s
Magnitude of force on object F(t)=(17.0 N/s)t
To find
Distance
Solution
The rocket accelerates due to variable force so we apply Newtons second law but the acceleration will not be constant because the force is not constant
We use ax=Fx/m to find acceleration but it must be integrate to find velocity and then the distance that rocket travels
So
Distance d=8.63m
Answer:
Haven't done this but I think it will increase by 73.29% not too anyone correct me if I'm worng
6. "The electric field caused by an electron is weakest near the electron" is FALSE.
7. "An electric field becomes weaker as distance from the electron increase" is TRUE.
<u>Explanation:</u>
The "electrical field" covers the electrical charge and exerts, attracts or repels other charges in the field.The electric field caused by an electron is strongest near the electron while it become weak as distance from the electron increase.
The reason behind is, at a point the direction of the field line is at that point the direction of the field. The relative magnitude of the electric field will be proportional to the field line density. The field is strongest where the field lines are near together and when the field lines are at increasing distance the field is weakest.
Magnitudes are measured by intensity so a 3.4 earthquake is much less stronger than a 4.5 earthquake it’s very literally when measuring them the higher the number the stronger it is
Answer:
A. 30.7cm
B.
C. The electric field is directed away from the point of charge
Explanation:
A.
B.
Considering Gauss's law
C. The electric field directed away from the point of charge when the charge is positive.