Vectors, New Student, probably very basic

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SUMMARY

The discussion focuses on solving a physics problem involving vectors, specifically the motion of a stone thrown horizontally with an initial velocity of 5 m/s. The key equations used are the vector equations for horizontal and vertical motion, which are v_x = v_{0x} + a_x t and v_y = v_{0y} + a_y t. After calculating the components, the resulting magnitude of the velocity is 5.37 m/s, with a direction of 2.14 degrees below the horizontal. There was a noted discrepancy regarding the angle, with one participant suggesting it should be 21.4 degrees instead.

PREREQUISITES
  • Understanding of basic physics concepts, particularly vectors and motion.
  • Familiarity with the equations of motion in two dimensions.
  • Knowledge of the Pythagorean Theorem for calculating vector magnitudes.
  • Ability to convert Cartesian coordinates to polar coordinates.
NEXT STEPS
  • Study the equations of motion in two dimensions, focusing on horizontal and vertical components.
  • Learn how to apply the Pythagorean Theorem to find the magnitude of vectors.
  • Research how to convert Cartesian coordinates to polar coordinates in physics.
  • Explore common misconceptions in vector problems, particularly in projectile motion.
USEFUL FOR

This discussion is beneficial for students beginning their studies in physics, particularly those tackling vector problems in kinematics. It is also useful for educators looking to clarify concepts related to motion in two dimensions.

stevie
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I have just started studying my first physics class this year, and I am stuck on 1 question relating to vectors. I think my problem is understanding the question, I have completed all the other questions in the section fairly easily. This is the question I am stuck on.

A stone is thrown horizontally with an initial velocity of 5ms-1. What is the magnitude and direction of its velocity 0.2s later? Take the acceleration of free fall to be 9.8ms-2 and ignore friction.

The book has the answers, but it doens't show working out. but I have not been able to figure out how to do this one. Any help? Please? Show any workings. Thanks.
 
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v_o = 5 m/s
t = 0.2 s
a = g = 9.82 m/s^2

The v_0 is a vector upwards while the acceleration is a vector downwards with respect to the time.
 
Last edited:
Mattara said:
The v_0 is a vector upwards

No, it's horizontal. :smile:

The key here is to note that the vector equation

\vec v = {\vec v}_0 + \vec a t

is really two equations, one each for the x and y components of motion:

v_x = v_{0x} + a_x t

v_y = v_{0y} + a_y t

The information you were given tells you the values of v_{0x}, v_{0y}, a_x, a_y and t. Therefore you can calculate v_x and v_y, and from them you can calculate the magnitude and direction of \vec v.
 
The answer according to the book is "5.37ms-1, 2.14 degrees below horizontal."
 
Oh, my bad didn't read the whole question ;P
 
stevie said:
I have just started studying my first physics class this year, and I am stuck on 1 question relating to vectors. I think my problem is understanding the question, I have completed all the other questions in the section fairly easily. This is the question I am stuck on.

A stone is thrown horizontally with an initial velocity of 5ms-1. What is the magnitude and direction of its velocity 0.2s later? Take the acceleration of free fall to be 9.8ms-2 and ignore friction.

The book has the answers, but it doens't show working out. but I have not been able to figure out how to do this one. Any help? Please? Show any workings. Thanks.
jtbell has the correct equations for each of the components (x and y). Keep in mind that the horizontal component has an acceleration of zero. The vertical component has an initial velocity of zero (the stone was thrown horizontally).

jtbell's equations give you the vector in Cartesian coordinates. You want the vector in polar coordinates. Plug the x and y coordinates into the Pythagorean Theorem to get the magnitude of the vector. The tangent of the angle is equal to y/x. (Since gravity accelerates the stone downwards, your y component will be negative, hence the negative angle - i.e. 2.14 degrees below horizontal).
 
stevie said:
The answer according to the book is "5.37ms-1, 2.14 degrees below horizontal."

Either you or the book made a typo. It should be 21.4 degrees, not 2.14.
 

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