NCERT Solutions Class 9 Science Chapter 7 - Motion
What are objects coming to rest and moving in circular ways? What makes things move in any of the many kinds of ways? These are the basics learned in class 9 chapter 7 motion. The concepts range from walking or cycling in the daily routine to a lot more complex principles that would help them understand motion on a scientific basis.
This article will provide students with high-quality NCERT Solutions for class 9 science chapter 7 motion exercises devised specifically to help students practice problems, recall important concepts, and enhance their critical and problem-solving skills. Motion Class 9 NCERT Solutions are developed by the ALLEN's subject experts and include the entire chapter concepts as per the latest CBSE curriculum.
1.0Science Class 9 Science Chapter 7 NCERT Solutions - Free Download
Regular practice of class 9 chapter 7 motion question answer is encouraged for the students. Regulated practice will strengthen not only conceptual understanding but also retention of memory. For additional support towards Class 9, students can go through - NCERT Solutions for Class 9 Science, which delivers solutions for all chapters of the Class 9 syllabus. In addition, class 9 chapter 7 motion notes are available for use as revision, thereby helping to revise rapidly. All these resources form the strategic approach for a solid science foundation and good academic performance.
2.0What Will Students Learn in Chapter 7 - Motion?
These are some of the concepts that students need to fully develop an understanding of the basics of motion, therefore opening up further physical concepts.
- Understand the movement of objects and what factors influence motion.
- Be able to determine if an object is moving uniformly or non-uniformly in reference to its velocity.
- Be able to distinguish between distance, which is the total length of the path traveled, and displacement, which is the shortest distance between two points.
- Find understanding of how speed is a scalar quantity and velocity is a vector quantity and learn how to calculate both.
- Apply the three key formulas to solve problems dealing with velocity, acceleration, and displacement.
- Discussion of the motion through distance-time and velocity-time graphs.
- Introduction to how objects can accelerate to increase their speed, decrease their speed, or change direction.
- Introduce the concept of uniform acceleration.
- Examine how an object may move in a circular path at constant speed but with continuous change in direction.
3.0NCERT Questions with Solutions for Class 9 Science Chapter 7 - Detailed Solutions
- An object has moved through a distance. Can it have zero displacement? If yes, support your answer with an example. Solution Yes, an object which has moved through a distance can have zero displacement. Example : When a person, walking along a circular path, returns back to the starting point, after completing a circle, his displacement is zero. But he covers a distance , where ' ' is the radius of circular path.
- Which of the following is true for displacement? (a) It cannot be zero. (b) Its magnitude is greater than the distance travelled by the object. Solution None of the statements (a) or (b) is true for displacement.
- Distinguish between speed and velocity. Solution Speed is rate of change of distance, while velocity is the rate of change of displacement. Speed is a scalar quantity, while velocity is a vector quantity. Speed is always positive, while velocity is positive, negative or zero.
- Under what condition is the magnitude of average velocity of an object equal to its average speed? Solution When an object moves along a straight path without change in its direction, the average velocity of an object is equal to its average speed.
- What does the odometer of an automobile measure? Solution Odometer measures the distance travelled by the automobile.
- What does the path of an object look like when it is in uniform motion? Solution In uniform motion, the object moves along a straight path i.e. the path of object is a straight line.
- During an experiment a signal from a spaceship reached the ground station in five minutes. What was the distance of the spaceship from the ground station? The signal travels at the speed of light that is, . Solution Let the distance between the spaceship and the ground station be ' s '. Then, where, speed of signal time taken
- When will you say a body is in (i) Uniform acceleration? (ii) Non uniform acceleration? Solution (i) A body is in uniform acceleration when it moves in a straight line and equal changes of velocity take place in equal intervals of time. (ii) A body is said to be possessing nonuniform acceleration when unequal changes in velocity take place in equal intervals of time.
- A bus decreases its speed from to in 5 s . Find the acceleration of the bus. Solution Given Initial speed of bus Final speed of the bus Now acceleration is given by the relation
- A train starting from a railway station and moving with uniform acceleration attains a speed of in 10 minutes. Find its acceleration. Solution Given Initial speed of train, Final speed of train Now acceleration is given by the relation
- What is the nature of the distance-time graphs for uniform and non-uniform motion of an object? Solution The distance-time graph for uniform motion is a straight line not parallel to the time axis. The distance-time graph for non-uniform motion is not a straight line, it can be a curve or a zigzag line.
- What can you say about the motion of an object whose distance-time graph is a straight line parallel to the time axis? Solution The object is stationary.
- What can you say about the motion of an object if its speed-time graph is a straight line parallel to the time axis? Solution The object may be in uniform motion.
- What is the quantity which is measured by the area occupied below the velocitytime graph? Solution Distance is the quantity which is measured by the area under velocity-time graph.
- A bus starting from rest moves with a uniform acceleration of for 2 minutes. Find (a) the speed acquired. (b) the distance travelled. Solution Given Initial speed of bus, Final speed of bus, ? ? (i) We know, at (ii) Therefore, final speed acquired Distance travelled
- A train is travelling at a speed of . Brakes are applied so as to produce a uniform acceleration of . Find how far the train will go before it is brought to rest. Solution Given, initial speed of train, Final speed, , Acceleration, , Distance covered, ? Using the relation as, we have
- A racing car has uniform acceleration of . What distance will it cover in 10 s after start? Solution Given Initial velocity, Acceleration, Time, Distance covered, ? We know, Therefore, distance covered .
- Joseph jogs from one end to the other end of a straight 300 m road in 2 minutes 50 seconds and then turns around and jogs 100 m back to point C in another 1 minute. What are Joseph's average speeds and velocities in jogging (a) from to and (b) from to ? Solution The required figure is as shown
- (a) Distance covered Time taken and Now average speed from to is given by Now average velocity from to is given by (b) When Joseph turns around from B to C towards west, then Distance covered Time taken Therefore, average speed from A to C is Now displacement from A to C Therefore, average velocity from A to C is
- Abdul while driving to school computes the average speed for his trip to be . On his return trip along the same route, there is less traffic and the average speed is . What is the average speed for Abdul's trip? Solution Let one way distance for his trip be . Let be the time for his trip from home to school and be the time for his return trip. Then , and Therefore, total time of trip is Total distance covered Therefore, average speed of Abdul
- A motorboat starting from rest on a lake accelerates in a straight line at a constant rate of for 8.0 s . How far does the boat travel during this time? Solution Given, initial velocity of boat, Acceleration, Time, Distance covered, ? Using the relation we have,
- Figure below shows the distance-time graph of three objects A, B and C. Study the graph and answer the following questions : (a) Which of the three is travelling the fastest? (b) Are all three ever at the same point on the road? (c) How far has C travelled when B passes A? (d) How far has B travelled by the time it passes C?
- Solution (a) Car is travelling the fastest because its slope is largest among the three. (b) No, they are never at the same point because all the graphs of and C do not intersect at one point. (c) When car B passes car A at point P, the distance covered by car . (approx.) (d) Car B and C pass each other at point Q. The distance travelled by B at that point is nearly 5.7 km .
- The speed-time graph for a car is shown in figure below. (a) Shade the area on the graph that represents the distance travelled by the car during the first 4 seconds. (b) Which part of the graph represents uniform motion of the car?
- Solution (a) During first 4 seconds, car is moving with non-uniform acceleration. Area of shaded portion represents distance travelled. (b) The straight-line portion of the graph represents uniform motion of the car.
- State which of the following situations are possible and give an example for each of these. (a) An object with a constant acceleration but with zero velocity. (b) An object moving in a certain direction with acceleration in the perpendicular direction. Solution (a) A body with a constant acceleration but with zero velocity is possible. For example, when a body is just released, its initial velocity , but acceleration . (b) It is possible when a stone, tied to a string, is whirled in a circular path, the acceleration acting on it is always at right angle to the direction of motion of stone.
- An artificial satellite is moving in a circular orbit of radius 42250 km . Calculate its speed if it takes 24 hours to revolve around the earth. Solution Distance covered by the satellite in 24 hours. Therefore speed of satellite
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