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Where is the activation energy located on a graph depicting a chemical reaction?
The activation energy is located at the peak of the energy curve on a graph depicting a chemical reaction. It represents the minimum amount of energy required for the reaction to occur.
Which graph best represents a change of phase from a gas to a solid?
The graph that best represents a change of phase from a gas to a solid would show a decrease in temperature over time as the gas loses energy and transitions into a solid state. The temperature remains constant during the phase change itself due to the energy being used to break intermolecular bonds rather than increase temperature.
What is the relationship between the activation energy, activated complex, and reaction rate as depicted on a graph?
On a graph, the activation energy represents the minimum energy required for a reaction to occur. The activated complex is the unstable intermediate state during a reaction. The reaction rate is influenced by the activation energy and the stability of the activated complex. A lower activation energy and a more stable activated complex typically result in a higher reaction rate.
How can one determine the initial value on a graph?
To determine the initial value on a graph, look for the point where the graph intersects the y-axis. This point represents the initial value or starting point of the graph.
What graph shows the pathway of a reaction that absorbs energy?
A reaction that absorbs energy is endothermic and typically represented on a graph with a reactant energy level below the product energy level. This results in an increase in energy during the course of the reaction, with the energy barrier (activation energy) higher than that of an exothermic reaction.
What is the Transition graph and generalize transition graph?
history of transition graph
What is the difference between transition graph and generalized transition graph?
A generalized transition graph is a transition graph whose edges are labeled with regular expressions; otherwise it is same as the usual transition graph. source: Introduction to Formal Languages and Automata by Peter Linz , Regular expressions and regular languages, page 81
Where is the activation energy located on a graph depicting a chemical reaction?
The activation energy is located at the peak of the energy curve on a graph depicting a chemical reaction. It represents the minimum amount of energy required for the reaction to occur.
Which graph below best represents the relationship between stream erosion and kinetic energy?
The graph that best represents the relationship between stream erosion and kinetic energy would show a positive correlation, with higher kinetic energy leading to increased stream erosion. The graph should have kinetic energy on the x-axis and stream erosion on the y-axis, with erosion rates increasing as kinetic energy levels rise.
What represents acceleration on a graph?
The answer depends on the variables in the graph! In a graph of age against mass there is nothing that represents acceleration.
What represents the difference between the free energy content of the reaction and the free energy content of the products?
We'll need the graph your looking at the properly answer this question.
Which graph best represents a change of phase from a gas to a solid?
The graph that best represents a change of phase from a gas to a solid would show a decrease in temperature over time as the gas loses energy and transitions into a solid state. The temperature remains constant during the phase change itself due to the energy being used to break intermolecular bonds rather than increase temperature.
What characteristic of a graph represents the rate of change?
The slope of a graph.
How can you draw a graph that represents a linear relationship?
The graph is a straight line.
What is task graph?
graph in which each node represents a task to be performed
What part of a graph tells what the bars or graph represents?
the x-axies
What is the gradient of a graph in a displacement time and velocity time graphs?
In a displacement-time graph, the gradient represents velocity. In a velocity-time graph, the gradient represents acceleration.
