CAST Chemistry-Segment 1-Combustion
12th Grade
•20 Qs
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CAST Chemistry-Segment 1-Combustion
Quiz
•
Chemistry
•
12th Grade
•
Hard
+6
Standards-aligned
Lindsay Claverie
Used 12+ times
FREE Resource
20 questions
Show all answers
1.
MULTIPLE CHOICE QUESTION
3 mins • 1 pt
What is the most direct method of measuring energy flow in a system during a chemical reaction?
By measuring the change in pressure
By measuring the temperature change in the system
By observing the color change of the substance
By measuring the volume of gas produced
Answer explanation
Energy flow in a system can be measured by observing the temperature change. In exothermic reactions, the system releases energy in the form of heat, which is detected as an increase in temperature. Similarly, in endothermic reactions, the system absorbs heat, leading to a decrease in temperature.
Tags
NGSS.HS-PS1-5
2.
MULTIPLE CHOICE QUESTION
3 mins • 1 pt
How does the strength of the electrostatic interactions between particles in a substance correlate with the substance's physical properties, such as boiling point?
A stronger electrostatic interaction between particles typically results in a lower boiling point, as the substance requires less energy to overcome its interactions.
Stronger electrostatic interactions between particles typically result in a higher boiling point, as more energy is required to overcome these forces.
The strength of electrostatic interactions has no significant impact on the boiling point, which is mainly governed by molecular size.
A weaker electrostatic interaction generally results in a lower boiling point, but only in ionic compounds.
Answer explanation
The boiling point is a measure of the energy needed to overcome the intermolecular forces between particles. Substances with stronger electrostatic forces (such as ionic or network covalent structures) require more energy to break these bonds and transition to the gas phase, resulting in a higher boiling point.
Tags
NGSS.HS-PS2-4
3.
MULTIPLE CHOICE QUESTION
3 mins • 1 pt
How is energy released from fuels such as carbohydrates or hydrocarbons during metabolism or combustion?
By the release of electrical charges when chemical bonds are broken
By the rearrangement of atoms into new molecules, releasing chemical energy
By the release of light and heat through nuclear reactions
By the compression of particles, causing an increase in energy
Answer explanation
During combustion or metabolism, chemical bonds in fuels (such as carbohydrates or hydrocarbons) are broken and rearranged, releasing energy in the form of heat and light. This release of energy comes from the chemical potential energy stored in the bonds between atoms.
Tags
NGSS.HS-PS1-4
4.
MULTIPLE CHOICE QUESTION
3 mins • 1 pt
How does the structure of a substance at the bulk scale help infer the strength of electrical forces between its particles?
Substances with tightly packed structures tend to have weaker electrical forces.
Substances with rigid and orderly structures (like network solids) tend to have weaker electrical forces.
Substances with tightly packed and orderly structures tend to have stronger electrical forces.
Substances with irregular, loose structures tend to have stronger electrical forces.
Answer explanation
In substances like network solids (e.g., graphite or diamond) or ionic compounds, the particles are closely packed and organized in a way that maximizes the strength of the electrical forces between them. This results in high melting and boiling points. In contrast, substances with irregular or less tightly packed structures typically have weaker electrical forces between particles
Tags
NGSS.HS-PS1-3
5.
MULTIPLE CHOICE QUESTION
3 mins • 1 pt
In a chemical reaction, the release or absorption of energy depends on the difference in energy between which two factors?
The temperature of the reactants and products
The total bond energy of the reactants and products
The surface area of the reactants and products
The volume of the reactants and products
Answer explanation
The release or absorption of energy in a chemical reaction depends on the difference in the total bond energies between the reactants and products. If the bonds formed in the products are stronger than those in the reactants, energy is released (exothermic reaction). If the bonds in the products are weaker, energy is absorbed (endothermic reaction).
Tags
NGSS.HS-PS1-4
6.
MULTIPLE CHOICE QUESTION
3 mins • 1 pt
In an exothermic reaction, what happens to the total bond energy as the reaction progresses?
The bond energy of the reactants decreases, and the bond energy of the products increases, releasing energy.
The bond energy of the reactants is greater than that of the products, releasing energy.
The bond energy of the reactants and products remains the same, so no energy is released or absorbed.
The bond energy of the reactants is weaker than that of the products, absorbing energy.
Answer explanation
In an exothermic reaction, the total bond energy of the reactants is greater than that of the products. When the bonds in the reactants break and new bonds are formed in the products, the energy released is greater than the energy needed to break the bonds in the reactants. This excess energy is released as heat.
Tags
NGSS.HS-PS1-4
7.
MULTIPLE CHOICE QUESTION
3 mins • 1 pt
Which of the following best describes the relationship between bond energy and the absorption or release of energy in a chemical reaction?
If the total bond energy of the products is greater than that of the reactants, the reaction absorbs energy.
If the total bond energy of the products is greater than that of the reactants, the reaction releases energy.
If the total bond energy of the products is equal to the reactants, no energy is absorbed or released.
If the total bond energy of the reactants is equal to that of the products, the reaction will always absorb energy.
Answer explanation
If the total bond energy of the products is greater than that of the reactants, the reaction requires more energy to form the bonds in the products, which results in the absorption of energy. This is characteristic of endothermic reactions.
Tags
NGSS.HS-PS1-4
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