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Have you ever used Mathematica ?

Have you ever used Mathematica ?. What do we want to do today?! Thursday: 10-1-1440. A bit of housekeeping Chapter-4. Prof. Zain Yamani Office: 15-3100/ 3102; Phone : 860-4363; Mobile : 0504608515 E-Mail : zhyamani@kfupm.edu.sa ; HP: http://faculty.kfupm.edu.sa/phys/zhyamani.

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Have you ever used Mathematica ?

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  1. Have you ever used Mathematica?

  2. What do we want to do today?!Thursday: 10-1-1440 • A bit of housekeeping • Chapter-4 Prof. Zain Yamani Office: 15-3100/ 3102; Phone: 860-4363; Mobile:0504608515 E-Mail: zhyamani@kfupm.edu.sa; HP: http://faculty.kfupm.edu.sa/phys/zhyamani

  3. A bit of housekeeping Attendance If you come late, please make me aware during the (end of) the same lecture.

  4. A bit of housekeeping Office Hours in term 181

  5. A bit of housekeeping The Rotation Matrix!! B = {-2Sqrt[3], -2} with rotation q = p/6 Check with Mathematica!! We can do nice things with Mathematics for rotation 

  6. Chapter-4: Motion in Two and Three Dimensions • Position, displacement, velocity and acceleration • Projectile motion • Uniform Circular Motion • Relative Motion in 1 D • Relative Motion in 2 D

  7. Ch-4 2D & 3D motion r(t)= x(t) i + y(t) j + z(t) k This is in rectangular coordinates v(t) = vx(t) i + vy(t) j + vz(t) k a(t) = ax(t) i + ay(t) j + az(t) k What does 2D & 3D motion with constant acceleration mean?

  8. Ch-4 2D & 3D motion What about in other coordinates, like for example polar coordinates or spherical polar coordinates? v(t) = a(t) = http://dynref.engr.illinois.edu/rvs.html

  9. Ch-4 Projectile Motion What do we mean by projectile motion? How do we deal with projectile motion problems? Mathematica: projectile motion

  10. Projectile motion A driver wants to make his car jump over 8 cars parked at 1.5 m below a horizontal ramp as shown in Figure 2. The horizontal distance he must clear without hitting any of the parked cars is 22 m. If the initial takeoff angle of the car is 7.0ᴼ above the horizontal ramp, then what should be the car’s initial minimum speed so that the driver can land without hitting any of the parked cars? 152-1

  11. What if we had air resistance (drag)? Mathematica: projectile air resistance

  12. Ch-4 Uniform Circular Motion What do we mean by uniform circular motion? How do we deal with uniform circular motion problems?

  13. A problem on Uniform Circular Motion A particle is in a uniform circular motion in counter clockwise direction starting from the positive x-axis. Its period of motion is 2.1 s and the magnitude of its radial acceleration is 3.0 m/s2. Determine the velocity of the particle when it exactly completes 1.5 revolutions. 152-1

  14. A problem on Uniform Circular Motion A particle is in a uniform circular motion in counter clockwise direction starting from the positive x-axis. Its period of motion is 2.1 s and the magnitude of its radial acceleration is 3.0 m/s2. Determine the velocity of the particle when it exactly completes 1.5 revolutions. 152-1

  15. Another problem on Uniform Circular Motion A star with a diameter of 40.0 km rotates about its central axis making two revolutions per second. What is the speed (km/s), of an object on the star’s equator? 141-1

  16. Ch-4 Relative Motion What do we mean by relative motion (1-D)? What do we mean by relative motion (2-D)? How do we deal with uniform circular motion problems?

  17. A problem on Relative Motion Snow is falling vertically at a constant speed of 7.0 m/s. At what angle from the vertical direction do the snowflakes appear to be falling as viewed by the driver of a car travelling on a straight, level road with a speed of 16 m/s? 152-1

  18. Another problem on Relative Motion A boat is traveling upstream towards the east at 10 km/h with respect to the water of a river. The water is flowing at 5.0 km/h with respect to the ground. A man on the boat walks from front to rear at 3.0 km/h with respect to the boat. What are the magnitude and direction of the man’s velocity with respect to the ground? 141-1

  19. Another problem on Relative Motion A boat is traveling upstream towards the east at 10 km/h with respect to the water of a river. The water is flowing at 5.0 km/h with respect to the ground. A man on the boat walks from front to rear at 3.0 km/h with respect to the boat. What are the magnitude and direction of the man’s velocity with respect to the ground? 141-1

  20. Chapter-4 slides 

  21. Mathematica can choose 

  22. !!Checkofficial Phys-101 website!!

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