Examples of Scientific notation in the following topics:
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- Scientific notation is a way of writing numbers that are too big or too small in a convenient and standard form.
- Scientific notation is a way of writing numbers that are too big or too small in a convenient and standard form.
- Scientific notation is a less awkward and wordy way to write very large and very small numbers such as these.
- Scientific notation displayed calculators can take other shortened forms that mean the same thing.
- Convert properly between standard and scientific notation and identify appropriate situations to use it
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- Coulomb's Law, which calculates the electric force between charged particles, can be written in vector notation as $F(E) = \frac{kq_1q_2}{r^2}$ r+.
- This vector notation can be used in the simple example of two point charges where only one of which is a source of charge .
- The total force on the field charge q is due to applications of the force described in the vector notation of Coulomb's Law from each of the source charges.
- In a simple example, the vector notation of Coulomb's Law can be used when there are two point charges and only one of which is a source charge.
- Explain when the vector notation of Coulomb's Law can be used
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- Atomic theory is a scientific theory of the nature of matter which states that matter is composed of discrete units called atoms.
- Atomic theory is a scientific theory of the nature of matter which states that matter is composed of discrete units called atoms , as opposed to the obsolete notion that matter could be divided into any arbitrarily small quantity.
- Philosophical proposals regarding atoms have been suggested since the years of the ancient Greeks, but John Dalton was the first to propose a scientific theory of atoms.
- This marked the first truly scientific theory of the atom, since Dalton reached his conclusions by experimentation and examination of the results in an empirical fashion.
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- Physicists operate under the assumption that all scientific laws and theories are valid until a counterexample is observed.
- A theory is an explanation for patterns in nature that is supported by scientific evidence and verified multiple times by various groups of researchers.
- A law uses concise language to describe a generalized pattern in nature that is supported by scientific evidence and repeated experiments.
- Laws and theories are similar in that they are both scientific statements that result from a tested hypothesis and are supported by scientific evidence.
- And, whereas a law is a postulate that forms the foundation of the scientific method, a theory is the end result of that process.
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- There is a nice way to simplify the notation of the previous section and to introduce a powerful mathematical at the same time.
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- Where $\dot \theta = \frac{d \theta}{dt}$ is the angular velocity, (using Newton notation for differentiation), and $n=\frac{2 \pi}{P}$ is the mean motion of the planet around the Sun.
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- Physics is the foundation of many disciplines and contributes directly to chemistry, astronomy, engineering, and most scientific fields.
- What differentiates physics from biology is that many of the scientific theories that describe living things ultimately result from the fundamental laws of physics, but cannot be rigorously derived from physical principles.
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- Modern scientific usage denotes the atom as composed of constituent particles: the electron, the proton and the neutron.
- Though originally viewed as a particle that cannot be cut into smaller particles , modern scientific usage denotes the atom as composed of various subatomic particles.
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- In this section we will use the $f$ (cycles per second) notation rather than the $\omega$ (radians per second), because there are slightly fewer factors of $2\pi$ floating around.
- Also, up to now, we have avoided any special notation for the Fourier transform of a function, simply observing whether it was a function of space-time or wavenumber-frequency.
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- We use "uppercase" notation, BODY, to emphasize that the BODY under consideration has been carefully selected and "set apart" from the rest of the physical world.
- We use the notations, mBODY and mVBODY, for mass and momentum, respectively.