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Parabolic Motion -03- Perpendicular Velocity In Parabolic Motion
Rebiaz Studio
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1 year ago
A particle is projected with velocity 30 m/s at angle 30° with horizontal. Find the time when the velocity vector is perpendicular to the initial velocity vector.
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00:00
Hi guys, good morning. I hope you have a good day ahead.
00:07
By the way, in front of your screen is a pretty interesting problem.
00:12
A particle is launched with an initial velocity of 30 meters per second at an angle of 30
00:17
degrees to the horizontal. Well, we are asked to estimate the time when the particle's
00:24
velocity is perpendicular to its original velocity. Let's analyze this case.
00:34
First of all, we will create a parabolic trajectory on the Cartesian plane, where the particle's
00:40
launch point is right at the center of coordinates. At point 0, the particle's velocity is V0.
00:52
The angle of the initial velocity is beta 0. We will extend this velocity line to infinity.
01:02
Next, we will draw a line perpendicular to that line. Slide the perpendicular line until
01:11
it touches the parabolic trajectory. Let's call that point 1.
01:19
The particle's velocity at point 1 will be perpendicular to the particle's initial velocity.
01:27
We don't know where this point is located. We are only asked to get when the particle
01:31
reaches point 1. What comes to our mind? That's right. Dot product. The dot product of two
01:41
perpendicular vectors is 0. Just right. Vector V0 dot vector V1 is equal to 0. Based on the
01:53
kinematics of motion, vector V1 is equal to vector V0 plus vector A, t. This equation
02:03
can be written like this. Vector V0 dot vector V0 is V0 squared cosine 0 degrees. Because
02:14
the same vector is a vector in the same direction. The value of cosine 0 degrees is 1. A here
02:27
is the acceleration vector. The direction of vector A is towards the negative y-axis.
02:36
Note the angle formed is vector A and vector V0. The angle is 90 plus beta 0. This is correct.
02:46
Thus the result of the dot product is V0GT cosine of 90 plus beta 0. Here we do not give
02:55
a negative sign to the acceleration due to gravity because the sign is already represented
03:00
by the angle between the two vectors. From the trigonometric identity table, the cosine
03:07
of 90 plus beta 0 is equal to the minus sign of beta 0. V0 squared minus V0GT sine beta
03:16
0 is equal to 0. From here, t is equal to V0 over G sine beta 0. Both of these values
03:29
are written on the problem sheet. Everyone knows that the sine of 30 degrees is half.
03:40
T is equal to 6 seconds. This is the time required for the particle to reach the point
03:47
where the velocity at that point will be perpendicular to the initial velocity.
03:54
Happy learning everyone!
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