Answer: The frequency = 1714.3Hz
Explanation: The solution can be achieved by using doppler effect formula.
Since the source is moving toward the observer, the velocity of the observer will be positive.
Please find the attached file for the solution
Answer:
The common velocity v after collision is 2.8m/s²
Explanation:
look at the attachment above ☝️
#82
here we know that
acceleration = 2 m/s/s
time = 5 s
initial speed = 4 m/s
now we can use kinematics to find the final speed
So correct answer will be option D)
#83
here we know that
acceleration = 3 m/s/s
time = 4 s
initial speed = 5 m/s
now we can use kinematics to find the final speed
So correct answer will be option C)
#84
here we know that
acceleration = 7 m/s/s
time = 3 s
initial speed = 8 m/s
now we can use kinematics to find the final speed
So correct answer will be option C)
Explanation:
A student solving for the acceleration of an object has applied appropriate physics principles and obtained the expression as :
.............(!)
Where
m = 7 kg
We need to find the value of a from equation (1). On solving we get :
Hence, this is the required solution.
Explanation:
It is given that,
Relativistic Mass of the stone, m₀ = 0.6
Mass,
Relativistic mass is given by :
.........(1)
Where
c is the speed of light
On rearranging equation (1) we get :
v = 0.61378 c
or
v = 0.6138 c
So, the correct option is (c). Hence, this is the required solution.