The displacement time graph of a particle moving along a straight line is drawn below.
The accelerations of the particle during the regions OP, PQ and QR
OP | PQ | QR |
- | 0 | + |
OP | PQ | QR |
+ | 0 | + |
OP | PQ | QR |
+ | 0 | - |
OP | PQ | QR |
- | + | - |
A particle of mass m moves with constant speed along a circular path of radius r under the action of force F. Its speed is
A bullet is fired from a rifle and recoils. Kinetic energy of rifile is
less than K.E of bullet
greater than K.E of bullet
equal to K.E of bullet
none of the above
Side of an equilateral triangle is l. Three point masses each of magnitude m, are placed at the three vertices of the triangle. Moment of inertia of this system about one side of the triangle as axis is given by
P, Q and R are three coplanar forces acting at a point and are in equilibrium. Given: P = 1.9318 kg wt [sin θ1 = 0.9659], the value of R (in kg wt) is
0.9659
2
1
1/2
Suppose the gravitational force varies inversely as the nth power of distance. Then the time period of a planet in circular orbit of radius R around the sun will be proportional to
Rn
Figure shows the variation of energy with the orbit radius r of a satellite in a circular motion. Mark the correct statement
C is total energy, B kinetic energy and A is potential energy.
A is kinetic energy, B total energy and C potential energy
A and 8 are the kinetic and potential energies and C the total energy of the satellite.
C and A arc kinetic and potential energy respectively and B the total energy of the satellite.
Assertion: When the velocity of projection of a body is made n times, its time of flight becomes n times.
Reason: Range of projectile does not depend on
the initial velocity of a body.
If both assertion and reason are true and reason is the correct explanation of assertion
If both assertion and reason are true but reason is not the correct explanation of assertion
If assertion is true but reason is false
If both assertion and reason are false
A slab consists of two layers of different materials of the same thickness and having thermal conductivities K1 and K2 are connected in series. The equivalent thermal conductivity of the slab is
K1 + K2
A.
There are four factors ( K, A, ΔT, d) that affect the rate at which heat is conducted through the material. These four factors included in the equation below
Q - the amount of heat transferred in time t
K - thermal conductivity constant of the material
A - cross-sectional area of the material transferring heat
ΔT - a temperature difference
d - thickness
Due to same thickness area of cross-section and temperature difference both are constant
In series combination
⇒
⇒
⇒ K =