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Velocity is built from speed and direction. Speeding up, slowing down, and changing direction are all the possible forms of acceleration. They're all caused by unbalanced external forces.
Answer:
2.72×10^-7
Explanation:
velocity = frequency × wavelength
2.05×10^8=7.55×10^14 wavelength
wavelength = 2.05×10^8/7.55×10^14
wavelength = 2.72×10^-7
Answer:
The initial velocity of the bullet is 1066.63 m/s
Explanation:
The problem involves two different events: A collision between two objects and the stretching of a spring
Since we know the final condition of the system, we start from the end and back to the initial condition
The system of the bullet+block with mass= 4Kg+8gr = 4.008 Kg stretches the spring a distance of x=0.087 m
The work done when stretching a spring of constant k is
This work is equivalent to the change of potential energy of the spring, which is the result of the transformation of the kinetic energy of the total mass of the system
Solving for v' (the velocity of the system after the collision took place)
This is the resulting velocity after the bullet lodged into the block. That event complies with the law of conservation of linear momentum
Since the block is initially at rest ()
Solving for :
The initial velocity of the bullet is 1066.63 m/s
Explanation:
The acceleration due to gravity on the moon is 1.63 m/s².
Mass of a rock on the moon is 2000 N
The weight of an object is given by :
W = mg, where m is the mass of the object.
Acceleration due to gravity on the Earth is 9.8 m/s². So,
Hence, the mass of the rock is 1226.99 kg and its weight on the Earth is 12024.502 N.