ICSE Class 9 Physics Previous Year Question Paper Download in PDF. This Old Question Paper also known as ICSE Specimen Paper Class 9 Physics included all Chapter of ICSE Syllabus Measurements and Experimentation, Motion in one dimension, Laws of Motion, Fluids, Heat and Energy, Light, Sound, Electricity and Magnetism.
ICSE Class 9 Physics Previous Year Question Paper from Chapter Measurements and Experimentation, Motion in one dimension, Laws of Motion, Fluids, Heat and Energy, Light, Sound, Electricity and Magnetism
Question 1:
(a) (i) Define the least count of an instrument.
(ii) What is the least count of a standard laboratory micrometer screw gauge?
(b) A spring balance is used to find the weight of a body X on the surface of the moon. The mass of the body X is 2 kg and its weight is recorded as 3.4 N. The weight of another body Y recorded by the same balance is found to be 7.65 N. Calculate the mass of the body Y.
(c) State two differences between mass and weight.
(d) Two pendulums P and Q have equal lengths but their bobs weigh 10gf and 20gf respectively.
(i) Compare their time periods.
(ii) Give a reason for your answer.
(e) Why do we need to run a certain distance before getting into a moving bus?
Question 2:
(a) Copy the diagram below and clearly mark the directions of the forces that act on it and name the forces.
(b) If I travel from Mumbai to Pune (150 Km) in 2½ hrs via the Express Highway and return to Mumbai via the old High way (180 km) in 3½ hrs, calculate the average velocity during the entire journey.
(c) Define retardation and give an example of a body having this motion
(d) Copy the diagram and complete the path of the rays A and B.
(e) State the purpose of using the following in an electric circuit.
(i) Ammeter
(ii) Rheostat
Question 3:
(a) A sound wave of frequency 500Hz and wavelength 0.66m is travelling in a
medium. Calculate the velocity of the wave in the medium.
(b) Sound waves A & B are travelling in two different media. Find which wave will
be travelling faster, when:
(i) A is travelling in water and B is travelling in CO2.
(ii) A is travelling in CO2 and B is travelling in hydrogen
(c) A body is completely immersed in a fluid. State two factors on which the upthrust acting on the body depends.
(d) A and B are two metal spheres which are connected with the help of a metal wire. State the direction of flow of electrons in each case.
(e) Why do we use a convex mirror as a rear view mirror?
Question 4:
(a) State two differences between an electromagnet and a permanent magnet.
(b) Why does a magnet suspended freely from its CG, always come to rest along the north south direction of the earth?
(c) State the second law of Thermodynamics in energy flow (Law of conservation of energy).
(d) Name and state the principle on which the hydraulic brakes of a car work.
(e) State two main human activities which are responsible for the increase of carbon dioxide gas in the atmosphere.
Question 5:
(a) A train is moving at a velocity of 25 ms-1. It is brought to rest by applying the brakes which produces a uniform retardation of 0.5 ms-2. Calculate
(i) the velocity of the train after 10 s
(ii) If the mass of the train is 20000 kg then calculate the force required to stop the train.
(b) (i) State the universal law of gravitation.
(ii) Express it in a mathematical form. (Explain the symbols used.)
(iii) State the value of universal gravitation constant in S.I. unit.
(c) Using the following velocity time graph of a body answer the following questions.
(i) During which time intervals is the body moving with variable velocity?
(ii) What is the acceleration of the body during the interval 3 s to 5 s?
(iii) What is the displacement of the body in the last four seconds of its motion?
Question 6:
(a) (i) Differentiate between the terms supersonic and ultrasonic.
(ii) State two uses of ultrasound.
(b) State three factors on which the speed of sound depends.
(c) The speed of sound in air is 320 ms-1 and in water it is 1600ms-1. It takes 2.5 s for sound to reach a certain distance from the source placed in air.
(i) Find this distance.
(ii) How much time will it take for sound to travel the same distance when the source is in water?
Question 7:
(a) The diagrams below show pins suspended from the same magnet to their maximum limit in two different cases. State with a reason whether the set of pins A or the set of pins B are made out of soft iron. Also define the magnetic process which enables us to suspend the pins one below the other.
(b) (i) Define a secondary cell.
(ii) Give one example of a secondary cell.
(iii) State one advantage of a secondary cell over a primary cell.
(c) (i) Define a neutral point.
(ii) In the diagram below AB is a magnet and CD is an iron bar. Study the diagram and determine the polarities at the ends A, B and D.
Question 8:
(a) The area of pistons in hydraulic machine are 6 cm2 and 576 cm2. What force on the smaller piston will support a load of 1152 N on the larger piston? State the assumption made in the above calculation.
(b) (i) Define global warming.
(ii) State two ways by which global warming impacts on life on earth.
(c) Complete the path of the ray AB over plane mirrors M1 and M2 and label all the angles of incidences.
Question 9:
(a) (i) Why does a piece of steel sink in water but float on mercury?
(ii) If a bowl is formed from the same steel piece then it can float in water. Why?
(b) The diagram below shows a frozen pond in a cold region. (i) State the expected temperatures at A and B.
(ii) Name the phenomenon responsible for these temperatures mentioned in part (i)
(c) A metal piece weighs 200 gf in air and 150 gf when completely immersed in water.
(i) Calculate the relative density of the metal piece.
(ii) How much will it weigh in a liquid of density 0.8 gcm-3?
Question 10:
(a) Copy and complete the following ray diagram to obtain the image of the object AB kept in front of the concave mirror.
(b) An object of height 20 cm is kept at a distance of 48 cm in front of a mirror of focal length 12 cm. If the mirror forms a virtual, diminished image of the object then calculate
(i) The distance of the image from the mirror.
(ii) Its magnification.
(c) Study the diagram below and
(i) Identify the electrical components labelled A, B and C.
(ii) State whether the circuit given below is open or closed.