Answer:
Doppler effect to analyze the motion and properties of the star and planet.
Explanation:
The radial velocity method invovles watching the spectral lines of a star as a planet orbits around the star. Because of the planets gravitational pull on the star, will wobble. This causes Doppler shifts in the spectral lines, allowing astronomers to infer the presence of the planets.
Answer:
C evaluating the solution
Answer:
Magnification, m = -0.42
Explanation:
It is given that,
Height of diamond ring, h = 1.5 cm
Object distance, u = -20 cm
Radius of curvature of concave mirror, R = 30 cm
Focal length of mirror, f = R/2 = -15 cm (focal length is negative for concave mirror)
Using mirror's formula :
, f = focal length of the mirror
v = -8.57 cm
The magnification of a mirror is given by,
m = -0.42
So, the magnification of the concave mirror is 0.42. Thew negative sign shows that the image is inverted.
Answer:
slightly higher than y
Explanation:
The initial/previous upward component of the bullet's velocity does not really have effect on the constant downward acceleration due to gravity. Since you must aim upward, there will be less or declined horizontal velocity, therefore it will take more time for the bullet to get to the plane of the target or aim. The bullet will now have more time to drop away from the straight line path along which it was aimed.
Furthermore, this problem assumes ideal or perfect conditions (no effects from air resistance). The high speed of a bullet has no much or less effect in this regards.
A line that is falling towards the x axis represents an object that is negatively accelerating, or slowing down. When the line hits the x axis, the object has stopped moving. If the graph continues below the x axis, the object has changed direction and is moving backwards at increasing velocity.