Write it down to the table
two
diagnostic work in Physics
For 7th grade students
A solid wooden block is placed on the table first with the edge having the smallest surface area, then with the edge with the largest surface area (see figure).
How does the pressure of the block on the table change, as well as the force of gravity acting on the block?
For each physical quantity, determine the corresponding nature of change. Write it down to the table selected numbers for each physical quantity. The numbers in the answer may be repeated.
| Answer: | A | B |
| 8 |
Establish a correspondence between physical devices and the physical pattern underlying their operation. For each physical device from the left column, select a physical law from the right column.
Write it down to the table selected numbers under the corresponding letters.
Select from the list provided two statements that correspond to the results of experimental observations. Indicate their numbers.
| Answer: | A | B |
To answer tasks C1–C2, use a separate signed sheet. Write down the task number first and then the answer to it.
Read the text and complete tasks 13, C1.
The answer to each of the tasks B1-B4 will be a certain sequence of numbers. Enter in answer form No. 1 the numbers of the selected answers in the required sequence without spaces or commas. The numbers in the answers to tasks B1-B4 may be repeated.
IN 1. Establish a correspondence between physical quantities and instruments for measuring these quantities.
For each position in the first column, select the corresponding position in the second and write down to the table selected numbers under the corresponding letters.
AT 2. The bullet passed horizontally through the plywood target. How did the kinetic, potential and internal energy of the bullet change? For each physical quantity, determine the corresponding nature of change.
Write it down to the table selected numbers for each physical quantity.
The numbers in the answer may be repeated.
AT 3. The figure shows a graph of temperature dependence t on time τ, obtained by uniformly heating the substance with a constant power heater. Initially, the substance was in a solid state.
Using the chart data, select from the list provided two faithful
statements. Indicate their numbers.
1) Point 2 on the graph corresponds to the liquid state of the substance.
2) The internal energy of a substance during the transition from state 3 to state 4 increases.
3) The specific heat capacity of a substance in the solid state is equal to the specific heat
heat capacity of this substance in the liquid state.
4) Evaporation of a substance occurs only in states corresponding to the horizontal section of the graph.
5) Temperature t 2 is equal to the melting point of a given substance.
AT 4. The teacher conducted experiments with the device proposed by Pascal. Liquid is poured into vessels whose bottoms have the same area and are covered with the same rubber film. At the same time, the bottom of the vessels bends around, and its movement is transmitted to the arrow. The deflection of the arrow characterizes the force with which the liquid presses on the bottom of the vessel. The experimental conditions and the observed readings of the device are presented in the figure.
Select from the list provided two statements that correspond to the results of experimental observations.
Indicate their numbers.
1) As the height of the liquid column increases, its pressure on the bottom of the vessel
increases.
2) The force of water pressure on the bottom of the vessels is the same in all three experiments.
3) The pressure created by the liquid at the bottom of the vessel depends on the density
liquids.
4) The force of liquid pressure on the bottom of the vessel depends on the area of the bottom of the vessel.
5) The pressure created by water at the bottom of the vessel does not depend on the shape of the vessel.
Demo version
control measuring materials
subject monitoring
in physics
45 minutes are allotted to complete the physics work. The work consists of 2 parts and includes 18 tasks.
Part A contains 14 tasks (A1–A14), each of them has 4 possible answers, of which only one is correct. When completing assignment Part A, in answer form No. 1, put the “×” sign in the box whose number corresponds to the number of the answer you chose.
Part B contains 4 short answer tasks (B1-B4). When completing tasks in part B, the answer is written down on form No. 1 in the space provided.
When making calculations, it is allowed to use a non-programmable calculator.
When completing tasks, you can use a student ruler and a draft. Please note that entries in the draft will not be taken into account when assessing the work.
The points you receive for completed tasks are summed up. Below is reference information that you may need when performing the work.
We wish you success!
Decimal prefixes |
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Name | Designation | Factor |
Reference data
Normal conditions: pressure 105 Pa, temperature 0°C
Part A
When completing tasks (A1–A14) of this part, choose one correct answer from the four proposed answer options. In the answer form, put an “×” sign in the box whose number corresponds to the number of the answer you have chosen.
A1. The ball rolls down an inclined plane with uniform acceleration from the state
peace. The initial position of the ball and its position every second
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A5. A block of mass 100 g is placed on a horizontal surface. What horizontal force must be applied to the block so that it can move with an acceleration of 2 m/s2? The coefficient of friction between the block and the surface is 0.1.
A6. An open vessel is filled with water. Which figure correctly shows the direction of convection flows with the given heating scheme?
A7. To determine the specific heat of combustion of a fuel, it is necessary to know
1) the energy released during complete combustion of the fuel, its volume and
initial temperature
2) the energy released during complete combustion of the fuel and its mass
3) the energy released during complete combustion of the fuel and its density
4) specific heat capacity of the substance, its mass, initial and final
temperature
A8. When a crystalline substance weighing 100 g was heated and subsequently melted, its temperature and the amount of heat imparted to the substance were measured. The measurement data is presented in table form. The last measurement corresponds to the end of the melting process. Assuming that energy losses can be neglected, determine the specific heat of fusion of the substance.
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A10. The figure shows a bar graph. It shows the current values in two conductors (1) and (2) of the same resistance. Compare the work values of the current A1 and A2 in these conductors for the same time.
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The direction of electric current and the interaction of conductors is correct
shown in the figure
A12. The figure shows the optical axis OO1 of a thin lens, object A and its image A1, as well as the path of two rays involved in image formation
According to the figure, the focus of the lens is at the point
1) 1, and the lens is converging
2) 2, and the lens is converging
3) 1, and the lens is divergent
4) 2, and the lens is divergent
A13. A rheostat is connected to a 120 V network in series with the lamp. The voltage at the rheostat is 75 V. What is the resistance of the lamp if the current
in the circuit is 12 A?
A14. Using a fragment of the Periodic Table of Chemical Elements presented in the figure, determine which isotope of the element is formed as a result of the electronic beta decay of bismuth.
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AT 2. The bullet passed horizontally through the plywood target. How did the kinetic, potential and internal energy of the bullet change? For each physical quantity, determine the corresponding nature of change.
Write it down to the table selected numbers for each physical quantity.
The numbers in the answer may be repeated.
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Using the chart data, select from the list provided two faithful
statements. Indicate their numbers.
1) Point 2 on the graph corresponds to the liquid state of the substance.
2) The internal energy of a substance during the transition from state 3 to state 4 increases.
3) The specific heat capacity of a substance in the solid state is equal to the specific heat
heat capacity of this substance in the liquid state.
4) Evaporation of a substance occurs only in states corresponding to the horizontal section of the graph.
5) Temperature t2 is equal to the melting point of a given substance.
AT 4. The teacher conducted experiments with the device proposed by Pascal. Liquid is poured into vessels whose bottoms have the same area and are covered with the same rubber film. At the same time, the bottom of the vessels bends around, and its movement is transmitted to the arrow. The deflection of the arrow characterizes the force with which the liquid presses on the bottom of the vessel. The experimental conditions and the observed readings of the device are presented in the figure.
Select from the list provided two statements that correspond to the results of experimental observations.
Indicate their numbers.
1) As the height of the liquid column increases, its pressure on the bottom of the vessel
increases.
2) The force of water pressure on the bottom of the vessels is the same in all three experiments.
3) The pressure created by the liquid at the bottom of the vessel depends on the density
liquids.
4) The force of liquid pressure on the bottom of the vessel depends on the area of the bottom of the vessel.
5) The pressure created by water at the bottom of the vessel does not depend on the shape of the vessel.
System for assessing work performance in physics
Part A
For correct completion of each of tasks A1–A14, 1 point is awarded.
Part B
Each of the tasks B1-B4 is scored 2 points if all elements of the answer are correct; 1 point if at least one element of the answer is correct, and 0 points if the answer does not contain elements of the correct answer.
Test final work for the 7th grade physics course
For multiple choice questions 1, 2, 4, 9, 10, 13, circle the number of the correct answer. For other tasks, write the answer in the space provided.1
Choose the correct statement about the structure of gases, liquids and solids.
Only attractive forces act between molecules in solids.
Only repulsive forces act between molecules in gases.
In both liquid and gaseous bodies there are spaces between molecules.
In solids, molecules move in an orderly manner.
2
Choose the correct statement about the properties of diffusion.
As body temperature decreases, the speed of chaotic movement of particles suspended in liquids increases.
At the same temperature, diffusion occurs faster in gaseous substances than in liquid substances.
The rate of diffusion in liquids is determined by the density of the liquids.
As the temperature increases, the rate of diffusion in solids decreases.
3
For each physical concept in the first column, select a corresponding example from the second column.
Write it down to the table
PHYSICAL CONCEPTS
unit of physical quantity
molecule
device for measuring physical quantity
millimeter
dynamometer
4
Are the following statements true?
A. As a result of the force, the body can become deformed.
B. The result of a force depends on the point at which the force is applied.
only A is correct
only B is correct
both statements are true
both statements are wrong
5
The figure shows the movement of the body, and its position was marked with dots every second. What is the average speed of the body in the area from 0 to 10 cm?
Answer _____________________cm/s
6
A solid wooden block is placed on the table first with the edge having the smallest surface area, then with the edge with the largest surface area (see figure).
How does the pressure of the block on the table change, as well as the force of gravity acting on the block?
For each physical quantity, determine the corresponding nature of change. Write it down to the table selected numbers for each physical quantity. The numbers in the answer may be repeated.
NATURE OF CHANGE
A)pressure
gravity
increases
decreases
does not change
7
Establish a correspondence between the forces and examples of the manifestation of these forces.
to the table selected numbers under the corresponding letters.
sliding friction force
movement of planets around the sun
force of universal gravity
passenger deviation back when accelerating the bus
slow motion of a sled along a horizontal section of an ice track
deformation of the ball when hitting a wall
8
Establish a correspondence between physical devices and the physical pattern underlying their operation. For each physical device from the left column, select a physical law from the right column.
Write it down to the table selected numbers under the corresponding letters.
PHYSICAL DEVICE
PHYSICAL REGULARITY
liquid pressure gauge
change in fluid pressure when its volume changes
liquid thermometer
condensation of water vapor when the temperature drops
expansion of liquids when heated
dependence of hydrostatic pressure on the height of the liquid column
9
The measurement error using a dynamometer is the value of the division. What is the force of gravity acting on the load (see figure)?
10
It is necessary to experimentally establish whether the buoyant force depends on the volume of a body immersed in a liquid. Which set of aluminum and copper metal cylinders can be used for this purpose?
11
The teacher conducted experiments with the device proposed by Pascal. Liquid is poured into vessels whose bottoms have the same area and are covered with the same rubber film. At the same time, the bottom of the vessels bends, and its movement is transmitted to the arrow. The deflection of the arrow characterizes the force with which the liquid presses on the bottom of the vessel.
A description of the teacher’s actions and the observed readings of the device are presented in the table.
Select from the list provided two statements that correspond to the results of experimental observations. Indicate their numbers.
As the height of the liquid column increases, its pressure on the bottom of the vessel increases.
The force of water pressure on the bottom is the same in all three experiments.
The pressure created by the liquid at the bottom of the container depends on the density of the liquid.
The force of liquid pressure on the bottom of the vessel depends on the area of the bottom of the vessel.
The pressure created by water at the bottom of the vessel does not depend on the shape of the vessel.
12
Establish a correspondence between scientific discoveries and the scientists to whom these discoveries belong.
For each position in the first column, select the corresponding position in the second and write down to the table selected numbers under the corresponding letters.
discovery of the phenomenon of continuous random movement of particles suspended in a liquid or gas
opening of atmospheric pressure
E. Torricelli
B. Pascal
To answer tasks 14–15, use a separate signed sheet. Write down the task number first and then the answer to it.
Read the text and complete tasks 13, 14.
Exploring the depths of the sea using a submarine
When exploring great depths, underwater vehicles such as bathyscaphes and bathyspheres are used.
The first submarine appeared on the Thames in 1620. And although it was a rather primitive device, the submarine immediately aroused the interest of the English king as a promising military object. The first Russian submarine was the underwater “Hidden Vessel”, built by the Russian inventor E.P. Nikonov on the orders of Peter I (see picture). In the summer of 1721, Nikonov made two successful dives and ascents on the Neva in his “model ship”.
“The Hidden Vessel” by E.P. Nikonova
Modern submarines are complex, technically advanced warships. However, in recent years, submarines have been equipped with scientific equipment and are widely used for scientific purposes to study the oceans.
The submarine floats and submerges using ballast tanks. The tanks are filled with air when floating on the surface. When diving, the ballast tanks are filled with water, and when ascending, the water is displaced using compressed air due to the fact that the pressure of the compressed air exceeds the external pressure of the water.
The maximum diving depth of submarines, as a rule, does not exceed several hundred meters. The main problem is not even that at depth the structural strength of a submarine may be insufficient - the example of bathyspheres, bathyscaphes and other deep-sea vehicles shows that they can withstand pressure of 1000 atmospheres. The difficulty lies in the mechanism for lifting a submarine from depth: with an external pressure of tens of atmospheres, this is extremely difficult to do.
13
Choose a statement that matches the content of the text.
The maximum diving depth of a submarine is determined mainly by the strength of its structure.
When a submarine dives, compressed air is used as ballast.
Bathyspheres and bathyscaphes are used to study oceanic depressions.
The first submarine was covered with leather and tied with ropes.
14
15
D 
All identical beakers with different liquids are balanced on lever scales (see figure). The first beaker contains a liquid whose density is 0.88 g/cm 3 . Determine the density of the liquid in the second beaker.
Performance evaluation system
final work
Answers for short answer and multiple choice items
Correct answer
Evaluation criteriafor tasks with a detailed answer
14
The air pressure in the submarine's gas cylinders is 5 MPa (50 atm).
Is it possible to ascend a boat from a depth of 600 m using gas cylinders? Explain your answer.
Contents of the correct answer
Possible answer:
1. Impossible.
2. At a depth of 600 m, hydrostatic pressure is approximately 6 MPa (excluding the contribution of atmospheric pressure). Compressed air at such a depth is no longer “compressed” and will not be able to displace water from the ballast tank. The boat will not be able to surface from such a depth.
Assessment guidelines
Points
The correct answer to the question is presented, and sufficient justification is provided without errors.
The correct answer to the question posed is presented, but its justification is not sufficient, although it contains both elements of the correct answer or an indication of the physical phenomena (laws) involved in the issue under discussion.
Correct reasoning leading to the correct answer is presented, but the answer is not clearly stated.
General considerations are presented that are not related to the answer to the question posed.
The answer to the question is incorrect, regardless of whether the reasoning is correct, incorrect, or missing.
15
Solve Problem 15. Write down the “Given,” the laws and formulas needed to solve the problem, mathematical transformations, calculations, and the answer.
Two identical beakers containing different liquids are balanced on a lever balance (see figure). The first beaker contains a liquid whose density is 0.88 g/cm 3 . Determine the density of the liquid in the second beaker.
Contents of the correct answer(other wording of the answer is allowed that does not distort its meaning)
Possible Solution. IV.
Other solutions that do not meet the conditions for scoring 2 and 1 points.
2.5 hours (150 minutes) are allotted to complete the examination work in physics. The work includes 19 tasks.
Answers to tasks 2–5, 8, 11–13, 16, 17 are written as one number, which corresponds to the number of the correct answer. Write this number in the answer field in the text of the work.
Answers to tasks 1, 6, 9, 14, 18 are written as a sequence of numbers in the answer field in the text of the work. Answers to tasks 7, 10 and 15 are written as numbers, taking into account the units indicated in the answer.
If you write down an incorrect answer to the tasks in Part 1, cross it out
and write down a new one next to it.
For task 19 you should give a detailed answer. The task is completed on a separate sheet.
When making calculations, it is allowed to use a non-programmable calculator.
When completing assignments, you can use a draft. Posts
in the draft are not taken into account when evaluating work.
The points you receive for completed tasks are summed up. Try to complete as many tasks as possible and score the most points.
We wish you success!
Below is reference information that you may need when performing the work.
The ball(s) has the maximum average density
An open vessel is filled with water. Which figure correctly shows the direction of convection flows with the given heating scheme?
| 1) | 3) | ||
| 2) | 4) |
| Answer: |
| 9 |
The figure shows a graph of temperature dependence t from time 
, obtained by uniformly heating a substance with a heater of constant power. Initially, the substance was in a solid state.
Using the chart data, select from the list provided two true statements. Indicate their numbers.
An insulated negatively charged metal ball was brought close to the uncharged insulated conductor AB. As a result, the leaves suspended on both sides of the conductor diverged at a certain angle (see figure).
The direction of electric current and the interaction of conductors are correctly depicted in the figure.
According to the figure, the focus of the lens is at the point
Using a fragment of the Periodic Table of Chemical Elements presented in the figure, determine which isotope of the element is formed as a result of the electronic beta decay of bismuth.
Select from the list provided two statements that correspond to the results of experimental observations. Indicate their numbers.
Will the buoyant force acting on a wooden block floating in kerosene change (and if it changes, how) if the block is moved from kerosene to water? Explain your answer.