Q3P A positron undergoes a displacem... [FREE SOLUTION]

Chapter 4: Q3P (page 84)

A positron undergoes a displacement $^{鈭� \overset{鈫�}{r} = 2.0 \hat{i} - 3.0 \hat{j} + 6.0 \hat{k}}$ , ending with the position vector localid="1654329593013" $^{\overset{鈫�}{r} = 3.0 \hat{j} - 4.0 \hat{k}}$ , in meters. What was the positron鈥檚 initial position vector?

Short Answer

Expert verified

The initial position vector of positron is $\overset{鈫�}{r_{0}} = (- 2.0 m) \hat{i} + (6.0 m) \hat{j} + (- 10.0 m) \hat{k} .$

Step by step solution

Given data

The displacement of the positron, $鈭� \overset{鈫�}{r} = (2.0 m) \hat{i} - (3.0 m) \hat{j} + (6.0 m) \hat{k}$

The final position vector, $\hat{r} = (3.0 m) \hat{j} - (4.0 m) \hat{k}$

Understanding the position vector and displacement vector

In a coordinate system, the position vector gives the location of an object relative to the origin. The displacement vector gives the change in the position of an object.

The expression for the displacement vector is given as:

$鈭� \overset{鈫�}{r} = \overset{鈫�}{r} - 鈭� \overset{鈫�}{r_{0}}$ 鈥� (i)

Here, $^{\overset{鈫�}{r_{0}}}$ and $^{\overset{鈫�}{r}}$ are the position vectors for initial and final positions respectively.

Determination of the initial position vector of positron

Using equation (i), the initial position vector can be calculated as:

${\overset{鈫�}{r}}_{0} = \overset{鈫�}{r} - 鈭� \overset{鈫�}{r} = \{(3.0 m) \hat{j} - (4.0 m) \hat{k}\} - \{(2.0 m) \hat{i} - (3.0 m) \hat{j} + (6.0) \hat{k}\} = (2.0 m) \hat{i} + (6.0) \hat{j} + (- 10.0 m) \hat{k}$

Thus, the initial position vector of positron is $\overset{鈫�}{r_{0}} = (- 2.0 m) \hat{i} + (6.0 m) \hat{j} + (- 10.0 m) \hat{k} .$

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91影视

A positron undergoes a displacement $^{鈭� \overset{鈫�}{r} = 2.0 \hat{i} - 3.0 \hat{j} + 6.0 \hat{k}}$ , ending with the position vector localid="1654329593013" $^{\overset{鈫�}{r} = 3.0 \hat{j} - 4.0 \hat{k}}$ , in meters. What was the positron鈥檚 initial position vector?

Short Answer

Step by step solution

Given data

Understanding the position vector and displacement vector

Determination of the initial position vector of positron

One App. One Place for Learning.

Most popular questions from this chapter

Recommended explanations on Physics Textbooks

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91影视

A positron undergoes a displacement鈭�r鈫�=2.0i^-3.0j^+6.0k^, ending with the position vector localid="1654329593013" r鈫�=3.0j^-4.0k^, in meters. What was the positron鈥檚 initial position vector?

Short Answer

Step by step solution

Given data

Understanding the position vector and displacement vector

Determination of the initial position vector of positron

One App. One Place for Learning.

Most popular questions from this chapter

Recommended explanations on Physics Textbooks

Rotational Dynamics

Scientific Method Physics

Electromagnetism

Fluids

Electricity and Magnetism

Physics of Motion

Study anywhere. Anytime. Across all devices.

A positron undergoes a displacement $^{鈭� \overset{鈫�}{r} = 2.0 \hat{i} - 3.0 \hat{j} + 6.0 \hat{k}}$ , ending with the position vector localid="1654329593013" $^{\overset{鈫�}{r} = 3.0 \hat{j} - 4.0 \hat{k}}$ , in meters. What was the positron鈥檚 initial position vector?