The number of significant figures in the numbers 4.8000 x 104 and 48000.50 are respectively
5 and 6
5 and 7
2 and 7
2 and 6
A body of mass m moving along a straight line covers half the distance with a speed of 2ms-1. The remaining half of the distance is covered in two equal time intervals with a speed of 3 ms-1 and 5 ms-1 respectively. The average speed of the particle for the entire journey is
A body of mass 0.05 kg is observed to fall with an acceleration of 9.5 ms-2. The opposing force of air on the body is (g = 9.8 ms-2)
0.015 N
0.15 N
0.030 N
zero
Three concurrent co-planar forces 1 N, 2 N and 3 N acting along different directions on a body
can keep the body in equilibrium if 2 N and 3 N act at right angle
can keep the body in equilibrium if 1 N and 2 N act at right angle
cannot keep the body in equilibrium
can keep the body in equilibrium in 1 N and 3 N act at an acute angle
Two rectangular blocks A and B of masses 2 kg and 3 kg respectively are connected by a spring of spring constant 10.8 Nm-1 and are placed on a frictionless horizontal surface. The block A was given an initial velocity of 0.15 ms-1. in the direction shown in the figure. The maximum compression of the spring during the motion is
0.01 m
0.02 m
0.05 m
0.03 m
The work done by a force acting on a body is as shown in the graph. The total work done in covering an initial distance of 20 m is
225 J
200 J
400 J
175 J
A door 1.6 m wide requires a force of 1 N to be applied at the free end to open or close it. The force that is required at a point 0.4 m distance from the hinges for opening or closing the door is
1.2 N
3.6 N
2.4 N
4 N
A planet revolves around the sun in an elliptical orbit. The linear speed of the planet will be maximum at
D
B
A
C
Two sources are said to be coherent if they produce waves
having a constant phase difference
of equal wavelength
of equal speed
having same shape of wavefront
A.
having a constant phase difference
Phase difference =
The phase difference is independent of time and depends only on the path difference (x2 − x1). This holds only if the two sources are 'coherent', ie, they have a constant fixed phase difference between them