
Kinematics Multiples
... a. The kinetic and potential energies are equal at all times. b. The kinetic and potential energies are both constant. c. The maximum potential energy is achieved when the mass passes through its equilibrium position. d. The maximum kinetic energy and maximum potential energy are equal, but occur at ...
... a. The kinetic and potential energies are equal at all times. b. The kinetic and potential energies are both constant. c. The maximum potential energy is achieved when the mass passes through its equilibrium position. d. The maximum kinetic energy and maximum potential energy are equal, but occur at ...
Electric potential energy
... energy are meaningful. It is always necessary to define where U and V are zero. In this lecture we define V to be zero at an infinite distance from the sources of the electric field. Sometimes (e.g., circuits) it is convenient to define V to be zero at the earth (ground). It will be clear from the c ...
... energy are meaningful. It is always necessary to define where U and V are zero. In this lecture we define V to be zero at an infinite distance from the sources of the electric field. Sometimes (e.g., circuits) it is convenient to define V to be zero at the earth (ground). It will be clear from the c ...
Q1. In Figure 1, three positively charged particles form a right angle
... Figure 2 shows three pairs of identical small conducting spheres that are to be touched together and then separated. The initial charges on them are indicated in the figure (e is the elementary charge and has the value 1.6×10-19 C) . Rank the pairs according to the magnitude of the charges ...
... Figure 2 shows three pairs of identical small conducting spheres that are to be touched together and then separated. The initial charges on them are indicated in the figure (e is the elementary charge and has the value 1.6×10-19 C) . Rank the pairs according to the magnitude of the charges ...
CHHANDAK SIR PHYSICS CLASSES Full Marks
... (a) Millikan performed an experiment to verify Einstein’s photoelectric equation and to determine the value of Plank’s constant h. For, this he measured the maximum energies of photoelectrons emitted by a number of alkali metals over a wide range of incident light frequencies. His apparatus is shown ...
... (a) Millikan performed an experiment to verify Einstein’s photoelectric equation and to determine the value of Plank’s constant h. For, this he measured the maximum energies of photoelectrons emitted by a number of alkali metals over a wide range of incident light frequencies. His apparatus is shown ...
New Energy transfer
... only stored in the height of the object. Any time that a heavy object is kept high up, a force or power is likely to be holding it up there. This is the reason why it stays up and does not fall. It is important to note that the heavier the object, the more its potential energy. ...
... only stored in the height of the object. Any time that a heavy object is kept high up, a force or power is likely to be holding it up there. This is the reason why it stays up and does not fall. It is important to note that the heavier the object, the more its potential energy. ...