migration of biomolecules in electerophoresis is always towards the opposite site electrode. because there is attraction between two opposite charge
molecule with positive charge migrate toward negative electrode and molecule with negative charge migrate towards positive electrode.
DNA is negatively charge molecule (due to it phosphate backbone) so that it migrate toward the positive pole. there is attraction between two opposite charge and same charge repeals each other , so that due to negatively charge DNA molecule moves toward positive pole in gel electrophoresis.
distance Explain migration according to charge (tips - why DNA moves toward the positive polo
If a positive charge moves toward higher electric potential, what will happen to its electric potential energy? How about if it moves along an equipotential? If a negative charge moves toward higher electric potential, what will happen to its electric potential energy? How about if it moves akng an equipotential ?
A point charge q = +39.0 µC moves from A to B separated by a distance d = 0.184 m in the presence of an external electric field E with arrow of magnitude 295 N/C directed toward the right as in the following figure. A positive point charge q is initially at point A, then moves a distance d to the right to point B. Electric field vector E points to the right. (a) Find the electric force exerted on...
A point charge q = +41.0 µC moves from A to B separated by a distance d = 0.167 m in the presence of an external electric field E with arrow of magnitude 265 N/C directed toward the right as in the following figure. A positive point charge q is initially at point A, then moves a distance d to the right to point B. Electric field vector E points to the right. (a) Find the electric force exerted on...
please explain!
A positive charge of 4.10 C is fixed in place. From a distance of 3.80 cm a particle of mass 6.80 g and charge +3.00 C is fired with an initial speed of 80.0 m/s directly toward the fixed charge. How close to the fixed charge does the particle get before it comes to rest and starts traveling away? Submit Answer Tries 0/20 e Post Discussion Send Feedback
1. What is the direction of the magnetic force on a positive charge that moves as shown in each of the six cases shown in Figure 22.50 of the text book? (6pts) (you can ask like: (a) left, (b) up, etc.) 2. What is the direction of the velocity of a positive charge that experiences the magnetic force shown in each of the three cases in Figure 22.51 of the textbook, assuming it moves perpendicular to B? (6pts) 3. What...
A point charge q = +40.0 µC moves from A to B separated by a
distance d = 0.180 m in the presence of an external electric field
of magnitude 275 N/C directed toward the right.
A point charge q = +39.0 μC
moves from A to B separated by a distance d = 0.171 m in the
presence of an external electric field E with arrow of magnitude
300 N/C directed toward the right as in the following figure.
4. +-22 points SerCP11 16 P.006 My Notes Ask Your Teacher a distance d -0.171 m in the presence of an external electric field E of magnitude 300 N/C directed toward the right as in A...
A positive charge, +q, of mass m is moving at speed vo toward a second positive charge, +Q, when it is at an initial distance, R, away. The second charge, +Q, is assumed to be fixed in position. Also assume that any changes in gravitational potential energy are negligible. Derive an expression for the closest distance (call this r) charge +q gets to + before it changes position Enter your answer in terms of R, vo. Q. q, m and...
4: Explain why the potential energy between a positive charge and a negative charge is
2. Explain why electroosmotic flow predominates capillary electrophoresis and how it can affect the migration (elution) of positive, negative, and neutral species within a sample.