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Physics-

General

Easy

Question

As a body performs S.H.M., its potential energy $U.$ Varies with time as indicated in

The correct answer is:

PE varies from zero to maximum. It is always positive sinusoidal function

Related Questions to study

A small sphere carrying a charge $q$ is hanging in between two parallel plates
by a string of length $L$ . Time period of pendulum is $T subscript 0 end subscript$ . When parallel plates are
charged, the time period changes to $T.$ The ratio $T divided by T subscript 0 end subscript$ is equal to

A small sphere carrying a charge $q$ is hanging in between two parallel plates
by a string of length $L$ . Time period of pendulum is $T subscript 0 end subscript$ . When parallel plates are
charged, the time period changes to $T.$ The ratio $T divided by T subscript 0 end subscript$ is equal to

physics-General

The graph between wave number $left parenthesis stack v with minus on top right parenthesis$ and angular frequency $left parenthesis omega right parenthesis$ is

The graph between wave number $left parenthesis stack v with minus on top right parenthesis$ and angular frequency $left parenthesis omega right parenthesis$ is

physics-General

The de Broglie wave present in fifth Bohr orbit is

The de Broglie wave present in fifth Bohr orbit is

physics-General

parallel

The above is a plot of binding energy per nucleon $E subscript b end subscript comma$ against the nuclear mass $M semicolon blank A comma blank B comma blank C comma blank D comma blank E comma blank F$ correspond to different nuclei. Consider four reactions
$A plus B blank rightwards arrow blank C blank plus blank epsilon$
$C blank rightwards arrow blank A plus B blank plus blank epsilon$
$D plus E rightwards arrow blank F blank plus blank epsilon$
$F blank rightwards arrow blank D plus E plus epsilon$

where $blank epsilon$ is the energy released? In which reaction is $blank epsilon$ positive?

The above is a plot of binding energy per nucleon $E subscript b end subscript comma$ against the nuclear mass $M semicolon blank A comma blank B comma blank C comma blank D comma blank E comma blank F$ correspond to different nuclei. Consider four reactions
$A plus B blank rightwards arrow blank C blank plus blank epsilon$
$C blank rightwards arrow blank A plus B blank plus blank epsilon$
$D plus E rightwards arrow blank F blank plus blank epsilon$
$F blank rightwards arrow blank D plus E plus epsilon$

where $blank epsilon$ is the energy released? In which reaction is $blank epsilon$ positive?

physics-General

To determine the half- life of radioactive element, a student plots graph of ln $open vertical bar fraction numerator d N blank left parenthesis t right parenthesis over denominator d t end fraction close vertical bar v e r s u s blank$ t. Here $fraction numerator d N blank left parenthesis t right parenthesis over denominator d t end fraction$ is the rate of radioactive decay at time t. If the number of radioactive nuclei of this element decreases by a factor of $p$ after 4.16 yr, the value of $blank p$ is

To determine the half- life of radioactive element, a student plots graph of ln $open vertical bar fraction numerator d N blank left parenthesis t right parenthesis over denominator d t end fraction close vertical bar v e r s u s blank$ t. Here $fraction numerator d N blank left parenthesis t right parenthesis over denominator d t end fraction$ is the rate of radioactive decay at time t. If the number of radioactive nuclei of this element decreases by a factor of $p$ after 4.16 yr, the value of $blank p$ is

physics-General

Figure shows the energy levels $P comma Q comma R comma S$ and $G$ of an atom where $G$ is the ground state. $A$ red line in the emission spectrum of the atom can be obtained by an energy level change from $Q$ to $S$ . A blue line can be obtained by following energy level change

Figure shows the energy levels $P comma Q comma R comma S$ and $G$ of an atom where $G$ is the ground state. $A$ red line in the emission spectrum of the atom can be obtained by an energy level change from $Q$ to $S$ . A blue line can be obtained by following energy level change

physics-General

parallel

The energy level diagram for an hydrogen like atom is shown in the figure. The radius of its first Bohr orbit is

The energy level diagram for an hydrogen like atom is shown in the figure. The radius of its first Bohr orbit is

physics-General

The count rate of $10 g$ of radioactive material was measured at different times and this has been shown in the figure. The half life of material and the total counts (approximately) in the first half life period, respectively are

The count rate of $10 g$ of radioactive material was measured at different times and this has been shown in the figure. The half life of material and the total counts (approximately) in the first half life period, respectively are

physics-General

Drawings I and II show two samples of electric field lines

Drawings I and II show two samples of electric field lines

physics-General

parallel

Figure shows lines of force for a system of two point charges. The possible choice for the charges is

Figure shows lines of force for a system of two point charges. The possible choice for the charges is

physics-General

Figure shows the electric lines of force emerging from a charged body. If the electric field at ‘A’ and ‘B’ are E_A and E_B respectively and if the displacement between ‘A’ and ‘B’ is ‘r’ then

Figure shows the electric lines of force emerging from a charged body. If the electric field at ‘A’ and ‘B’ are E_A and E_B respectively and if the displacement between ‘A’ and ‘B’ is ‘r’ then

physics-General

Given below is one of the types of ecological pyramids. This type represents –

Given below is one of the types of ecological pyramids. This type represents –

parallel

Four charges are arranged at the corners of a square ABCD as shown in the figure. The force on the positive charge kept at the centre ‘O’ is

Four charges are arranged at the corners of a square ABCD as shown in the figure. The force on the positive charge kept at the centre ‘O’ is

physics-General

A detector is moving in a circular path of radius r in anticlock wise direction with a constant angular velocity $omega$ as shown in the figure At time t=0, it starts from the location shown at A, assuming source at rest The time interval between minimum and maximum frequency as received by the detector

A detector is moving in a circular path of radius r in anticlock wise direction with a constant angular velocity $omega$ as shown in the figure At time t=0, it starts from the location shown at A, assuming source at rest The time interval between minimum and maximum frequency as received by the detector

physics-General

A detector is moving in a circular path of radius r in anticlock wise direction with a constant angular velocity $omega$ as shown in the figure At time t=0, it starts from the location shown at A, assuming source at rest The time at which the detector will hear the maximum frequency for the 1st time

A detector is moving in a circular path of radius r in anticlock wise direction with a constant angular velocity $omega$ as shown in the figure At time t=0, it starts from the location shown at A, assuming source at rest The time at which the detector will hear the maximum frequency for the 1st time

physics-General

parallel

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