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ACT Exam  >  ACT Questions  >  1000+ 200+ 50is equal toa)125b)25c)1/125d)3Co... Start Learning for Free
100+ 20+ 50 is equal to
  • a)
    125
  • b)
    25
  • c)
    1/125
  • d)
    3
Correct answer is option 'D'. Can you explain this answer?
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Verified Answer
1000+ 200+ 50is equal toa)125b)25c)1/125d)3Correct answer is option 'D...
By exponent law we know:
a0 = 1
1000 + 200 + 50 = 1 + 1 + 1 = 3
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Most Upvoted Answer
1000+ 200+ 50is equal toa)125b)25c)1/125d)3Correct answer is option 'D...
Explanation:
To solve this problem, we need to determine the value of the expression 1000/200/50.

Step 1: Division
We start by performing the division operation. Dividing 1000 by 200 gives us 5.

1000 ÷ 200 = 5

Step 2: Division
Next, we divide the result from step 1 by 50. Dividing 5 by 50 gives us 0.1.

5 ÷ 50 = 0.1

Step 3: Simplify
We can further simplify the expression by expressing 0.1 as a fraction. Since 0.1 is equivalent to 1/10, we can rewrite the expression as:

1/10

Step 4: Simplify
Finally, we simplify the fraction 1/10. We can do this by multiplying the numerator and denominator by 10. This gives us:

(1 × 10) / (10 × 10) = 10/100

Simplifying further, we divide both the numerator and denominator by their greatest common divisor, which is 10:

10 ÷ 10 / 100 ÷ 10 = 1/10

Conclusion:
Therefore, the expression 1000/200/50 is equal to 1/10, which is option 'D'.
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Community Answer
1000+ 200+ 50is equal toa)125b)25c)1/125d)3Correct answer is option 'D...
By exponent law we know:
a0 = 1
1000 + 200 + 50 = 1 + 1 + 1 = 3
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Directions:Read the passage and choose the best answer to each question.PassageA scientist tested the ability of 5 newly engineered drugs to kill penicillin-resistant bacteria.Experiment 1Equal numbers of penicillin-resistant bacteria were put into flasks containing 10.0 milliliters of a nutrient medium.The flasks were incubated for 1 hour at 37 C with different concentrations of the 5 drugs shown in Table 1. A control consisted of bacteria incubated in the medium without any drugs. The bacteria were washed to remove residual drug traces and grown on nutrient agar plates for 7 days. During this time, the bacteria reproduced, forming colonies, which were then counted at the end of the seventh day. Plates with more colonies were assumed to have more live bacteria at the end of the 1-hour incubation period. Table 1 shows the number of colonies counted. The drug-free control showed 50 colonies at the end of 7 days.Experiment 2Bacteria were handled as described in Experiment 1 with two exceptions: all drugs were tested at the same concentration and the incubation time of each culture was varied. Table 2 shows the number of colonies counted for Experiment 2.Experiment 3Permeability coefficients measure a drug’s ability to break through the cell membrane of a bacterium. The larger the permeability coefficient, the faster the drug is able to transfer through the membrane. The molecular mass, in atomic mass units (amu), and permeability coefficient, in centimeters per second (cm/s) of the 5 drugs at 37 C were measured. The results are shown in Table 3.Q.Based on Experiment 1, at a concentration of 10 mM, which drug was most effective at killing bacteria?

Both gases and liquids are considered to be fluids that have individual molecules that move around with kinetic and potential energy. Kinetic energy, defined as the energy related to motion, takes three forms: translational energy that occurs as a molecule moves from position A to position B, rotational energy that occurs as a molecule spins around an imaginary axis at its center of mass, and vibrational energy that occurs as individual atoms in a molecular bond move towards and away from each other. Usually, molecules possess varying combinations of kinetic energy forms. In contrast, potential energy is defined as stored energy that could be released to become kinetic energy. The total energy of a molecule is fixed, meaning that a molecule has some combination of kinetic and potential energies.Varying amount of kinetic and potential energies define how molecules in a fluid interact with each other. For example, when the kinetic energy of a molecule is high (greater than 1000J), it can no longer interact with neighboring molecules strongly enough to remain a liquid. However, if the potential energies are too high (greater than 1000 J), molecules cannot escape a liquid to become a gas. If the kinetic energy is high and the potential energy is low, molecules tend to become a gas and can be modeled by an equation known as the Ideal Gas Law:PV=nRT Where P is the pressure of a gas, V is the volume, n is the number of moles of a gas, R is a constant, and T is temperature in degrees Kelvin.The Ideal Gas Law perfectly applies to particles with no mass, no intermolecular interactions, and no true volume. However, real molecules do not adhere perfectly to the Ideal Gas Law.Q. As the kinetic energy of a molecule increases, one would expect the potential energy to

Both gases and liquids are considered to be fluids that have individual molecules that move around with kinetic and potential energy. Kinetic energy, defined as the energy related to motion, takes three forms: translational energy that occurs as a molecule moves from position A to position B, rotational energy that occurs as a molecule spins around an imaginary axis at its center of mass, and vibrational energy that occurs as individual atoms in a molecular bond move towards and away from each other. Usually, molecules possess varying combinations of kinetic energy forms. In contrast, potential energy is defined as stored energy that could be released to become kinetic energy. The total energy of a molecule is fixed, meaning that a molecule has some combination of kinetic and potential energies.Varying amount of kinetic and potential energies define how molecules in a fluid interact with each other. For example, when the kinetic energy of a molecule is high (greater than 1000J), it can no longer interact with neighboring molecules strongly enough to remain a liquid. However, if the potential energies are too high (greater than 1000 J), molecules cannot escape a liquid to become a gas. If the kinetic energy is high and the potential energy is low, molecules tend to become a gas and can be modeled by an equation known as the Ideal Gas Law:PV=nRT Where P is the pressure of a gas, V is the volume, n is the number of moles of a gas, R is a constant, and T is temperature in degrees Kelvin.The Ideal Gas Law perfectly applies to particles with no mass, no intermolecular interactions, and no true volume. However, real molecules do not adhere perfectly to the Ideal Gas Law.Q. In an oxygen molecule, O2, the two oxygen atoms oscillate about a fixed central point. Which form of kinetic energy is best described here?

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1000+ 200+ 50is equal toa)125b)25c)1/125d)3Correct answer is option 'D'. Can you explain this answer?
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