WAEC SSCE - Physics - 2010

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The micrometer screw gauge is the best instrument for measuring the diameter of a thin constantan wire. Micrometers are highly sensitive instruments that can measure small distances accurately. They are commonly used in precision engineering to measure the thickness of wires and the diameter of cylinders. The micrometer screw gauge has a spindle that moves as a thimble is turned, and the distance moved is indicated on a graduated scale. This allows for very precise measurements of small distances, such as the diameter of a thin wire. Callipers, metre rule, and vernier callipers are useful for measuring larger distances but are not as accurate as a micrometer screw gauge for measuring small distances.

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The term "exhaustible" means that the source of energy is finite and will eventually run out. Solar energy is considered inexhaustible because it comes from the sun and will be available as long as the sun exists. On the other hand, fossil fuels, such as coal, oil, and natural gas, are considered exhaustible because they are finite resources and will eventually be depleted. Tidal power is also considered inexhaustible because it relies on the gravitational pull of the moon and the sun on the Earth's oceans, which will continue as long as the Earth continues to orbit the sun. Therefore, the answer is: ii and iii only.

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When a positively charged glass rod is brought near the cap of a positively charged electroscope, the charge on the electroscope cap is repelled by the charged glass rod. As a result, the cap loses some of its charge and the electrons move down to the leaves, causing them to acquire a positive charge. The like charges on the leaves cause them to repel each other, causing them to diverge. Therefore, the divergence of the leaf will increase. Thus, the correct option is (b) increase.

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In a cathode ray tube, the x-plates are used to deflect the electron beam horizontally. The electron beam is generated by the cathode and accelerated by the anode towards the screen. The y-plates are used to deflect the beam vertically. By applying appropriate voltages to the x-plates and y-plates, the electron beam can be made to scan across the screen and form a visible image. Therefore, option A, which states that the x-plates deflect the electron beam horizontally, is the correct answer.

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Neutrons are used to induce artificial radioactivity because they have no charge and can penetrate atomic nuclei, unlike positively charged alpha particles or negatively charged beta particles. When neutrons are absorbed by the nucleus of an atom, they can cause the nucleus to become unstable and undergo radioactive decay. This can result in the emission of various forms of radiation, such as alpha particles, beta particles, or gamma rays, depending on the type of decay that occurs. Therefore, neutrons can be used to induce artificial radioactivity in a target material, which can then be used for various purposes such as medical imaging, cancer treatment, and nuclear power generation.

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In a thermos flask, heat can be transferred by conduction, convection, and radiation. To minimize heat loss by radiation, the inner surface of the outer wall of the flask is usually silvered. This silvered surface is highly reflective and has low emissivity, meaning that it reflects radiation back into the flask and reduces the amount of heat lost to the surroundings. This is the reason why the silvered surface of a thermos flask appears mirror-like. Therefore, the correct answer is "silvered surfaces."

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To find the temperature at 380 mmHg, we need to interpolate between the steam and ice points. We can use the formula: t = ((P - P_ice) / (P_steam - P_ice)) x (T_steam - T_ice) + T_ice where: - t is the temperature we want to find - P is the pressure we want to use for interpolation (380 mmHg in this case) - P_ice is the pressure at the ice point (440 mmHg) - P_steam is the pressure at the steam point (680 mmHg) - T_ice is the temperature at the ice point (0^oC) - T_steam is the temperature at the steam point (100^oC) Plugging in the values, we get: t = ((380 - 440) / (680 - 440)) x (100 - 0) + 0 t = (-60 / 240) x 100 t = -25^oC Therefore, the temperature recorded at 380 mmHg is -25^oC.

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The force acting on an object is given by the formula F = ma, where F is the force, m is the mass and a is the acceleration. However, in this case, the object is undergoing retardation, which means its acceleration is negative. Therefore, we have a = -20.0ms^-2. The mass of the object is given as 25.0kg. Using the formula F = ma, we can calculate the magnitude of the force as follows: F = m x a = 25.0kg x (-20.0ms^-2) = -500N The negative sign indicates that the force is acting in the opposite direction to the motion of the object. However, since the question asks for the magnitude of the force, we take the absolute value, which is 500N. Therefore, the magnitude of the retardating force acting on the object is 500.00N. So, the answer is 500.00N.

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A moving coil meter works by measuring the magnetic field produced by an electric current passing through a coil of wire. The sensitivity of the meter refers to how easily it can detect small changes in the current. A strong spring, which opposes the motion of the meter's pointer, will actually decrease the sensitivity of the meter, making it less responsive to small changes in current. A low number of turns on the coil or a small area of the coil will also reduce sensitivity, since there will be less magnetic field produced for a given current. Therefore, the factor that will increase the sensitivity of a moving coil meter is a soft iron core. This is because a soft iron core will amplify the magnetic field produced by the current, making it easier to detect small changes. The iron core will also help to concentrate the magnetic field, further increasing the sensitivity of the meter.

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The factor that does not affect the electric resistance of a wire is mass. Electric resistance is the opposition to the flow of electric current through a conductor. The four factors that affect the resistance of a wire are length, temperature, cross-sectional area, and the type of material used to make the wire. Length: the longer the wire, the higher the resistance as the electric current has to travel further, experiencing more collisions with the wire's atoms and electrons, which leads to a higher resistance. Temperature: an increase in temperature leads to an increase in the wire's resistance. This is because as the temperature increases, the wire's atoms and electrons vibrate more, impeding the flow of current, thus increasing the resistance. Cross-sectional area: the larger the wire's cross-sectional area, the lower its resistance because there are more paths for the electric current to flow through, reducing the chances of collisions with atoms and electrons, thus reducing resistance. Type of material used: different materials have different numbers of free electrons, which affects their resistance. For example, copper has more free electrons than iron, and therefore has a lower resistance. Mass, on the other hand, does not affect the resistance of a wire. The mass of a wire is not related to the number of free electrons or the wire's ability to impede the flow of current.

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The device that does not use plane mirrors in its operation is binoculars. A periscope uses two plane mirrors to reflect light and allow a person to see over an obstacle or around a corner. A sextant uses a plane mirror to reflect the image of the sun or stars onto a scale, enabling sailors to navigate. A kaleidoscope uses multiple plane mirrors to reflect and multiply the image of small colored objects into a visually attractive pattern. However, binoculars use a combination of convex and concave lenses to magnify distant objects, rather than plane mirrors.

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To calculate the rise in temperature of the copper, we need to use the formula: heat energy = mass x specific heat capacity x temperature change We know the power of the drill (400W) and the time taken (20s), so we can calculate the total energy produced: total energy = power x time total energy = 400W x 20s total energy = 8000J We also know the mass of the copper (400g) and the specific heat capacity of copper (400Jkg^-1K^-1). To calculate the temperature change, we rearrange the formula: temperature change = heat energy / (mass x specific heat capacity) temperature change = 8000J / (0.4kg x 400Jkg^-1K^-1) temperature change = 50K Therefore, the rise in temperature of the copper is 50^oC. So the correct option is: 50^oC.

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The ability of a wave to spread around corners is called diffraction. When waves encounter an obstacle or an aperture, they bend around the corners or edges of the obstacle or aperture and spread into the region behind the obstacle or aperture. This phenomenon is known as diffraction. The degree of diffraction depends on the size of the obstacle or aperture and the wavelength of the wave. Diffraction is a common phenomenon observed in many types of waves, including sound waves, light waves, and water waves.

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The specific heat capacity of a substance is defined as the amount of heat energy required to raise the temperature of a unit mass of the substance by 1 Kelvin (or 1 degree Celsius). Therefore, if the specific heat capacity of a body is given as 36.4 Jkg\(^{-1}\)K\(^{-1}\), it means that when 36.4 Joules of heat energy is supplied to a body of mass 1kg, the temperature of the body will rise by 1 Kelvin. Therefore, the correct answer is: "mass 1kg, the temperature rises by 1K".

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The correct wire color for the fuse in the wiring of houses may vary depending on the country or region. However, in many countries such as the UK and Europe, the wire color for the fuse is brown. This is because brown is the color assigned for live wires in electrical wiring, and the fuse is connected to the live wire for protection against electrical overloading or short-circuiting. Blue is typically used for neutral wires, yellow/green for earth wires, and yellow for the live wire in some countries. It is important to always follow the wiring regulations and guidelines of your region and seek professional assistance if necessary when dealing with electrical wiring.

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In a third class lever, the effort is applied between the fulcrum and the load. This means that the effort arm is shorter than the load arm. Examples of third class levers include tweezers and forceps.

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The thermoelectric thermometer is a type of temperature measuring device that utilizes the Seebeck effect to measure temperature. It consists of two different metals or semiconductors connected together, which generate a small voltage when there is a temperature difference between the two junctions. This voltage is directly proportional to the temperature difference between the two junctions, making it an effective and reliable way of measuring temperature. The advantages of the thermoelectric thermometer include its ability to measure rapidly changing temperatures, measure high and low temperatures, and measure temperature almost at a point. Additionally, it is fairly sensitive, which allows it to detect even small changes in temperature. Therefore, the statement that is not true is that the thermoelectric thermometer is not fairly sensitive.

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A cylindrical drum rolling down an inclined plane undergoes rotational and translational motion. Rotational motion refers to the spinning motion around its own axis, which the drum exhibits while rolling down the inclined plane. Translational motion refers to the linear motion of the center of mass of the drum, which moves along the inclined plane. Therefore, the correct answer is "rotational and translational."

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When an object is placed at the principal focus of a concave mirror, the location of the image formed is at infinity. This is because light rays that are reflected from the mirror are parallel to the principal axis of the mirror, and do not converge or diverge after reflection. Therefore, they appear to be coming from a point at infinity, and the image formed by the mirror appears to be located at this point.

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The amplitude of a sound wave determines its loudness. The loudness of a sound is the human perception of its intensity, which is directly related to the amplitude of the sound wave. The larger the amplitude of a sound wave, the louder the sound is perceived to be. However, it is important to note that the pitch, or the perceived highness or lowness of a sound, is determined by the frequency of the sound wave, not its amplitude.

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Radio waves have the longest wavelength among the given options. Electromagnetic waves are waves that are created by oscillations in electric and magnetic fields. The wavelength of an electromagnetic wave is the distance between two consecutive peaks or troughs in the wave. The different types of electromagnetic waves have different wavelengths and frequencies, and they are arranged in a spectrum according to their wavelengths. Radio waves have the longest wavelength and the lowest frequency among the electromagnetic waves. They are used for communication, such as in radio and television broadcasting. Gamma rays, on the other hand, have the shortest wavelength and highest frequency among the electromagnetic waves, and are often produced by radioactive decay or nuclear reactions. Infrared and ultraviolet rays have intermediate wavelengths and frequencies between radio waves and gamma rays. Infrared waves are often associated with heat radiation, while ultraviolet rays are known for their ability to cause sunburn and skin damage.

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The property that would alter if a long steel bar were melted, recast into a cube and allowed to cool to its original temperature is its volume. When the steel bar is melted and recast into a cube, the volume of the cube will be different from the volume of the original steel bar. This is because the shape of the cube is different from that of the bar. However, if the cube is allowed to cool to its original temperature, its volume will be the same as that of the original bar. The other properties such as density, specific heat capacity and electrical resistance will remain unchanged since they are intrinsic properties of the material and do not depend on the shape of the object.

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The neutron-proton ratio of a nuclide is the ratio of the number of neutrons (N) to the number of protons (Z) in its nucleus. For the nuclide \(^{70}_{32}X\), the number 70 represents the total number of nucleons (protons + neutrons) in its nucleus, while 32 represents the number of protons. Therefore, the number of neutrons can be calculated as: N = 70 - 32 = 38 The neutron-proton ratio of this nuclide can then be calculated as: N/Z = 38/32 = 1.19 Therefore, the neutron-proton ratio of this nuclide is approximately 1.2, which corresponds to.

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Relative density, also known as specific gravity, is defined as the ratio of the density of a substance to the density of a reference substance. In this case, the reference substance is water, which has a density of 1000 kg/m³. Therefore, the density of the fuel can be calculated by multiplying the relative density by the density of water: Density of fuel = Relative density x Density of water Density of fuel = 0.72 x 1000 kg/m³ Density of fuel = 720 kg/m³ Hence, the density of the fuel is 720 kg/m³. Therefore, the correct option is: 720 kgm^-3

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The maximum voltage that can be read by the voltmeter can be calculated using the formula: V = I(G + S) Where V is the voltage, I is the current passing through the circuit, G is the galvanometer resistance, and S is the shunt resistance. In this case, the full scale deflection current of the galvanometer is 20 mA, which is 0.02 A. The galvanometer resistance is given as 50 Ω, and the shunt resistance is 1950 Ω. To calculate the current passing through the circuit, we can use Ohm's Law: V = IR Where R is the total resistance in the circuit. In this case, the total resistance is the sum of the galvanometer resistance and the shunt resistance: R = G + S = 50 Ω + 1950 Ω = 2000 Ω Substituting the values into Ohm's Law, we get: V = IR = 0.02 A × 2000 Ω = 40 V Therefore, the maximum voltage that can be read by the voltmeter is 40V. Option D is correct.

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The statement is true only when the acceleration is uniform. Uniform acceleration means that the object is changing its velocity by an equal amount in the same direction during equal intervals of time. In this case, the average speed can be calculated by dividing the sum of initial and final velocity by 2. However, if the acceleration is not uniform, the average speed cannot be calculated using this formula. In that case, we need to use other formulas that take into account the non-uniform acceleration of the object.

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To prevent bar magnets from losing their strength, they are stored with keepers such that the two bars are placed with unlike poles facing each other and the keepers placed at their ends. This is because the magnetic field of a bar magnet flows from one pole to the other. When two magnets with the same pole are placed together, their magnetic fields interfere with each other and cancel out some of their magnetic properties. On the other hand, when two magnets with opposite poles are placed together, their magnetic fields combine and create a stronger magnetic field. By placing the keepers at the ends, the magnetic field of the bar magnet is confined to the magnet itself and doesn't interact with any external magnetic fields, which could cause it to lose its magnetism over time.

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Oxidation is the process of losing electrons, and in a light bulb, the filament gets extremely hot and can react with the oxygen in the air, which can cause the filament to deteriorate and burn out. To prevent this oxidation of the filament, an inert gas is introduced into the bulb, which does not react with the filament even at high temperatures. Of the options given, argon is an inert gas and is commonly used to prevent oxidation of the filament in a light bulb. Therefore, the correct answer is option C - argon.

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The resonant frequency of an a.c circuit is given by the formula: f = 1/(2π√(LC)) Where f is the resonant frequency, L is the inductance of the circuit, and C is the capacitance of the circuit. If each of the capacitance and inductance in the circuit is reduced by 50%, then the new values of L and C will be 0.5L and 0.5C respectively. Substituting these new values into the formula, we get: f' = 1/(2π√(0.5L * 0.5C)) f' = 1/(2π√(0.25LC)) f' = 1/(0.5π√(LC)) f' = 2f Therefore, the resonant frequency of the circuit will be doubled, which means it will become 2000kHz.

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The speed of a wave is given by the product of its frequency and wavelength, i.e., speed = frequency x wavelength Rearranging the above equation, we get: wavelength = speed / frequency Substituting the given values, we get: wavelength = 20 / 0.25 = 80m Therefore, the distance between successive crests of the wave is 80m. Answer: 4. 80.0m

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