Pseudopodia

Amoeba obtains its food by the process of endocytosis

By the help of pseudopodia( false legs)

Pseudopodia

Amoeba get food from external environment amoeba catch food never it by the help of psedophidia

The chemical equation which has equal number of atoms of all elements on both side of reaction . To balance chemical equation because follow the rule of law of conservation of mass.

Exothermic reaction: Reaction in which heat evolve are called exothermic reactions. Example-2Mg+O2---->2MgO

The reactions in which heat is given out are called exothermic reactions. energy of reactancts > energy of products. example ch4 + 2o2 = CO2 +2H2O + heat. Please like my answer

The chemical Reaction in which heat is evolve under suitable condition for example Cao+H2o______ Ca(OH2).

Transportation is the process of transferring any substance from one body part to another.

At first study whole chapter with focus and then without seeing book make mind maps

Ncert, schand, subham pathak maam's ( pdf session) .. Also u can use oswal.

Use youtube and s chand book

Make your own notes from ncert, YouTube and s chand

NCERT books , Shubham Pathak notes

The human digestive system consists of the gastrointestinal tract plus the accessory organs of digestion. Digestion involves the breakdown of food into smaller and smaller components, until they can be absorbed and assimilated into the body.

The human digestive system consists of the gastrointestinal tract plus the accessory organs of digestion. Digestion involves the breakdown of food into smaller and smaller components, until they can be absorbed and assimilated into the body.

Human digestion process is done by alimentary canal with consist of many organs like stomach,small intestine and large intestine.first the food enters in our mouth where it chewed by the teeth and then saliva secret salivary amylase in which complex protein in converted into simpler sugar then through oesophagus reach's our stomach where it met HCL,mucus and pepsin and after 3 hours food is shifted to small intestine and where fats are absorbed and finally reaches large intestine where water is absorbed then in last through **** it get disposed (some things are left but it is becoming too long)

Snell's law is a formula used to describe the relationship between the angles of incidence and refraction, when referring to light or other waves passing through a boundary between two different isotropic media, such as water, glass, or air.

3pbs +4o3_______ 3pbso4.

Mucus protect from harsh reaction of HCl by forming a layer a layer around stomach walls inside the stomach

Fully charged in 36 min - 65W SuperVOOC 2.0 in OPPO Reno4 Pro. How far should we hold an object from a concave mirrow of focal length 40cm so as to get a virtual image twice the size of the object? 2u because the magnification is 2, minus because it is a virtual distance, to a virtual image, behind the mirror.

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) Sodium and chlorine are reacted and as a result, sodium chloride is formed which is also called table salt. What option gives the reactants and products of the reaction? (a) reactants – sodium; products – chlorine (b) reactants – sodium and table salt; products – chlorine (c) reactants – tables salt; products – sodium and chlorine (d) reactants – sodium and chlorine; products – sodium chloride Correct Answer: Option (d) Q2) Which of the following reactions can also be termed as thermal decomposition reaction? (a) Combination Reaction (b) Decomposition Reaction (c) Displacement reaction (d) Double displacement reaction Correct Answer: Option (b) Q 3) The image shows some chemical reactions. CBSE Class 10 Science MCQ Chapter 1 Chemical Reactions and Equations-1 Which option identifies the reactants and products of the reactions? CBSE Class 10 Science MCQ Chapter 1 Chemical Reactions and Equations-2 Correct Answer: Option C Q4) A student performs an experiment to form aluminium chloride from aluminium and chlorine. Which options give the chemical equation of the reaction? (a) Al + Cl2 → AlCl2 (b) 2Al + Cl2 → 2AlCl (c) 2Al + 3Cl2 → 2AlCl3 (d) 3Al + 3Cl2 → 3AlCl3 Correct Answer: Option C Q5. Give the ratio in which hydrogen and oxygen are present in water by volume. (a) 1:2 (b) 1:1 (c) 2:1 (d) 1:8 Correct Answer: Option (c) Q6) A researcher adds barium hydroxide to hydrochloric acid to form a white-colored barium chloride. Which option gives the balanced chemical equation of the reaction? (a) HCl + Ba(OH)2 → BaCl2 + 2HOH (b) 2HCl + Ba(OH)2 → BaCl2 + 2HOH (c) 2HCl + Ba(OH)2 → BaH2 + 2HCl + O2 (d) HCl + 2Ba(OH) → 2BaCl2 + 2HOH + O2 Correct Answer: Option (b) Q7. One of the following processes does not involve a chemical reaction, that is: (a) Melting of candle wax when heated (b) Burning of candle wax when heated (c) Digestion of food in your stomach (d) Ripening of banana Correct Answer: Option (a) Q8) A student writes a chemical equation of the reaction between carbon monoxide and hydrogen. CO2 + 2H2 → CH3OH How can the reaction be classified? (a) The reaction is an example of a combination reaction as a compound separates into two compounds. (b) The reaction is an example of a decomposition reaction as a compound dissociates into two compounds. (c) The reaction is an example of a combination reaction as two compounds react to form a single compound. (d) The reaction is an example of a decomposition reaction as two compounds react to form a single compound. Correct Answer: Option (c) Q9. The chemical formula of magnesium oxide is? (a) MgO2 (b) Mg2O (c) MgO (d) Mg(OH)2 Correct Answer: Option (c) Q10) A student learns that some products are formed as a result of combining two compounds while some compounds are formed as a result of dissociation of two compounds. The image shows two reactions. CBSE Class 10 Science MCQ Chapter 1 Chemical Reactions and Equations-3 Which reaction is an example of a combination reaction and a decomposition reaction? (a) both the reactions are examples of combination reaction (b) both the reactions are examples of a decomposition reaction (c) reaction P is an example of a combination reaction while reaction Q is an example of a decomposition reaction (d) P is an example of a decomposition reaction while reaction Q is an example of a combination reaction Correct Answer: Option C Q11) From the following which one is the example of chemical reaction (a) Grapes get fermented (b) Breakdown of food (c) Formation of curd (d) All of the above Correct Answer: Option (d) All of the above Q12) A student adds lead and silver to two different test tubes containing an equal amount of copper sulphate solution. The student observes that the color of the solution in the test tube with lead changes. What explains the change in the colour of the solution? (a) A displacement reaction takes place as lead replaces copper from the solution. (b) A combination reaction takes place as lead combines with sulphate in the solution. (c) decomposition reaction takes place as copper dissociates from sulphate in the solution. (d) A double displacement reaction takes place as copper dissociates from sulphate and lead combines with sulphate in the solution. Correct Answer: Option (a) Q13) Which of the reactions is used in black and white photography? (a) Combination Reaction (b) Decomposition Reaction (c) Displacement reaction (d) Oxidation reaction Correct Answer: Option (b) Q14) What happens when lead nitrate reacts with potassium iodide? (a) They will not react (b) Large amount of hydrogen release (c) Yellow ppt of lead iodide and potassium nitrate will be produced (d) Evolution of gas will occur Correct Answer: Option (c) Q15) The chemical reaction between potassium chloride and silver nitrate is given by the chemical equation. AgNO3 + KCl → AgCl + KNO3 What can be inferred from the chemical equation? (a) silver nitrate and potassium undergo a decomposition reaction to form silver chloride and potassium nitrate (b) silver nitrate and potassium undergo a displacement reaction to form silver chloride and potassium nitrate (c) silver nitrate and potassium undergo a combination reaction to form silver chloride and potassium nitrate (d) silver nitrate and potassium undergo double displacement reaction to form silver chloride and potassium nitrate Correct Answer: Option (d) Q16. Which of the following does show an oxidation reaction? (a) Gain of oxygen (b) Loss of oxygen (c) Gain of hydrogen (d) None of the above Answer: (a) Gain of oxygen Q17) The image shows a reaction between zinc and hydrogen Which option shows oxidation? (a) Zn → Zn+2 (b) 2H+ → H2 (c) Zn+2 → Zn (d) H2 → 2H+ Correct Answer: Option C

1. Some fruits like mango, lemon, raw grapes, orange, etc., have a sour taste due to the presence of: a. Acetic acid b. Citric acid c. Lactic acid d. Oxalic acid Answer. b. Citric acid 2. Zinc granules on treating with an acid X, form the zinc sulphate (ZnSO4) salt along with the evolution of a gas Y which burns with a pop sound when brought near to a burning candle. Identify the acid X and gas evolved Y. a. X- Sulphuric acid and Y- Oxygen gas b. X- Hydrochloric acid and Y- Oxygen gas c. X- Sulphuric acid and Y- Hydrogen gas d. X- Hydrochloric acid and Y- Hydrogen gas Answer. c. X- Sulphuric acid and Y- Hydrogen gas 3. The figure given below represents the experiment carried out between conc. sulphuric acid and sodium chloride, which react with each other to form HCl gas. Blue litmus paper is brought near the mouth of the delivery tube to check the presence of HCl acid but no change is observed in the color of litmus paper because: a. The litmus paper used is dry b. The litmus paper used is moist c. Blue litmus paper does not change its color with an acid d. The litmus paper is kept very close to the mouth of the delivery tube Answer. a. The litmus paper used is dry 4. Which of the following phenomena occur, when a small amount of acid is added to water? i. Ionisation ii. Neutralisation iii. Dilution iv. Salt formation (i) and (ii) (i) and (iii) (ii) and (iii) (ii) and (iv) Answer. b. (i) and (iii) 5. Which of the following indicators turn red in an acidic solution? i. Phenolphthalein ii. Litmus iii. Turmeric iv. Methyl orange Choose the correct option: (i) and (ii) (ii) and (iii) Only (ii) (ii) and (iv) Answer. d. (ii) and (iv) 6. Dilute acid does not produce carbon dioxide on being treated with: a. Marble b. Lime c. Baking soda d. Limestone Answer. b. Lime 7. The sample of soil from a particular place was tested for its pH value. It came out to be 5. Which one of the following should be added to the soil to make it suitable for the plant growth? i. Calcium chloride ii. Calcium Hydroxide iii. Calcium oxide Choose the correct option: Both (i) and (ii) Both (ii) and (iii) Only (i) Only (iii) Answer. b. Both (ii) and (iii) Also Check: CBSE Class 10 Science MCQs from Chapter 1: Chemical Reactions & Equations 8. Identify the products of the following reaction: Jagranjosh a. Calcium hydrogencarbonate and chlorine gas b. Calcium chloride and water c. Calcium oxide, carbon dioxide and water d. Calcium chloride, carbon dioxide and water Answer. d. Calcium chloride, carbon dioxide and water 9. An ant’s sting can be treated with …………which will neutralise the effect of the chemical injected by the ant’s sting into our skin. Choose the correct option from the following to be filled in the blank space: a. Methanoic acid b. formic acid c. Baking soda d. Caustic soda Answer. c. Baking soda 10. In the following reaction, identify the salt formed NH4OH (aq) + H2SO4 (aq) → _____ + 2H2O (l) a. NH4NO3 b. (NH4)2SO4 c. (NH4)3PO4 d. (NH4)2S Answer. b. (NH4)2SO4 11. Which of the following salt will give acidic solution when dissolved in water? a. NH4Cl b. NaCl c. Na2CO3 d. CH3COONa Answer. a. NH4Cl 12. Bleaching powder is used as a disinfectant for water to: a. Make water tastier b. Remove all the dirt from water c. Make water germ-free d. Make water clear Answer. c. Make water germ-free 13. Which among the following represents the chemical formula for ‘Plaster of Paris’? Jagranjosh 14. Which one of the following salts will dissolve in water to form an alkaline solution? a. Potassium carbonate b. Sodium chloride c. Sodium carbonate d. Potassium sulphate Answer. a. Potassium carbonate 15. Copper sulphate crystals when heated strongly, lose their water of crystallization to give anhydrous copper sulphate accompanied by a change in color from: a. Blue to green b. Blue to white c. Blue to sky blue d. Blue to grey Answer. b. Blue to white

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Multiple choice questions of chapter 2 science

Answer this question pls?

Multiple choice questions of chapter 2science

It a reaction in which the more reactive metal displaces the less reactive metal by its salt solution.

Displacement reaction is a type of chemical reaction in which highly reactive element displaces less reactive element. Ex:- Fe+cuso4=feso4+cu Here iron is more reactive then copper.

In chemical reactions in which one molecule exchange their position in a compound is known as displacement reaction. For example Zn+H2so4_______ Znso4+H2.

The reaction in which highly reactive elements displace less reactive elements is called displacement reaction

It's show a holozoic nutrition.

Holozoic

Holozoic

Phygoscatosis

Autotrophs	Heterotrophs
Type of Organisms
Usually members of the plant kingdom and certain unicellular organisms like cyanobacteria	All members of the animal kingdom
Mode of Nutrition
Autotrophs are producers which prepare their own food.	Heterotrophs are the consumers who depend on other sources for their food.
Classified into
These can be classified as photoautotrophs and chemoautotrophs.	These can be classified as photoheterotrophs and chemoheterotrophs.
Presence of chloroplasts
The chloroplast helps in preparing food.	They do not contain chloroplast, so cannot prepare food.
Energy is obtained from
They obtain energy from inorganic sources by converting light energy into chemical energy.	They obtain energy directly or indirectly from other organisms.
Energy Storage
Autotrophs can store light energy and chemical energy.	Heterotrophs cannot store energy.
In Food Chain
They are placed at the primary level in the food chain.	These are placed in the secondary or tertiary level in the food chain.
Locomotion
They cannot move from their place.	Can move from one place to another in search of food and shelter.
Examples
Green plants, algae and a few photosynthetic bacteria are examples of autotrophs.	Cows, buffaloes, tigers, horses, humans are examples of heterotrophs.

A retraction is a continuous mapping from a topological space into a subspace that preserves the position of all points in that subspace. The subspace is then called a retract of the original space.

The electric dynamo uses rotating coils of wire and magnetic fields to convert mechanical rotation into a pulsing direct electric current through Faraday's law of induction and Lenz's law.

Activity 12.1 asks us to correlate voltage and current across a resistance using a different number of batteries. Observation: On increasing the number of batteries, the potential difference, as well as the current across the resistance, increases proportionally. Explanation: When we increase the number of batteries across a resistance, we increase the potential difference across the resistance. Potential difference is directly proportioned to the current flowing through it. As a result, we see an increase in the reading of ammeter as well as that of the voltmeter. Consider Potential difference as pressure on water and current as a flow of water. If we increase the pressure, it will result in an increase in the flow of water. The same thing happens with the current also. We call this as Ohm’s law. Ohm’s law state that at a fixed temperature the voltage across the resistance is directly proportional to the current flowing through it. V∝I when Temperature and resistance are constant. i.e. V=IR Conclusion: On increasing the potential difference across a resistance we see an increase in the current, it proves that V∝I i.e. Ohm’s law. Calculation: experiment to demonstrate ohm's law On an increase in voltage, current across the resistance also increases

When light rays strick on a concave mirror after reflection rays meet at a point this point is known as principal focus of concave mirror

(i) The principal focus of a concave mirror is a point on its principal axis to which all the light rays which are parallel will converge after reflection from the concave mirror. When an object is placed at infinite distance from the mirror, the rays of light coming from the object will be parallel to the principal axis as shown in the figure. After reflection from a concave mirror, the rays will converge to the focal point of the mirror which is denoted by point F in the image. (ii) The focal length of a concave mirror is the distance between the pole of the mirror denoted by point P in the image to the focal point of the mirror. Hence it is the distance between points P and F. Note For a concave mirror, whose radius of curvature lies in front of the concave mirror, the value is taken negative and so is the focal length of the mirror according to the convention of the Cartesian coordinate system. We must be careful to not mix the focal point and the centre of curvature of the mirror as the centre of curvature is approximately twice the focal length of the mirror.

decreases

Decreases

Increase

Decreases

/ ---- \ OR | --- ( if it's at the angle of 90°) | OR \ --- / ( hope it will be helpful)

Reflex Action and Reflex Arc

Reflex Action The whole mechanism of reflex action occurs in such a fashion that there is no conscious control of the brain. Stimulation occurs through the peripheral nervous system and the response to this peripheral nerve stimulation is involuntary. In a reflex action, the spinal cord along with the brain stem is responsible for the reflex movements. Reflex Action and Reflex ArcA few examples of reflex action are: When light acts as a stimulus, the pupil of the eye changes in size. Sudden jerky withdrawal of hand or leg when pricked by a pin. Coughing or sneezing, because of irritants in the nasal passages. Knees jerk in response to a blow or someone stamping the leg. The sudden removal of the hand from a sharp object. Sudden blinking when an insect comes very near to the eyes. The whole process of reflex action involves some important components. They are receptor organs, sensory neurons, nerve center, associated neurons, motor neurons and effector neurons. The receptor organs perceive the stimuli. They are situated on the sense organs. The afferent neurons or the sensory neurons carry the stimuli from receptors to the spinal cord. The ganglion of the spinal cord has the sensory neurons. The spinal cord is the nerve center, where synaptic connections are formed. The associated neurons are present in the spinal cord. The ventral horn of spinal cord has the motor neurons. Effector organs are the glands and muscles that behave in response to the stimuli.

Aerobic respiration = 1》presence of oxygen , Anaerobic respiration = 1 》 absence of oxygen

In AEROBIC RESPIRATION : 1》 takes place in presence of Oxygen. 2》complete break down of food occurs in Aerobic respiration. 3》by products are- CO2 , H2O 4》 produces a considerable amount of energy... In ANAEROBIC RESPIRATION : 1》takes place in absence of Oxygen. 2》 persial break down of food. 3》 by products are- Ethonal , CO2 , Lactic acid ( in case of animal muscle) 4》 produces a much less amount of energy. (Hope it will be helpful)

Accumulation of variations of during reproduction

Ohm 's laws define the relationship between potential difference and current of the conductor

Ohm's law states that , an electric current passing through a conductor is directly proportional to the potential difference of the conductor.Assuming a condition is constant i.e.,temperature.

1 ohm is the resistance of a condctor that when a potentialdifference of 1 volt isapplied to its ends a current of 1 ampere flows throug it

Oms law said that , at a constant temperature, an electric current pass through the conductor is directly proportion to potential differences of conductor.

A law starting that electric current is proportional to voltage and inversely proportional to resistance

Electricity is a form of energy ,Electricity is coverted into various other form of energy.

Expression of Electric Current: Electric current is denoted by the letter ‘I’. Electric current is expressed by the rate of flow of electric charges. Rate of flow means, the amount of charge flowing through a particular area in unit time. Electricity Class 10 Notes Science Chapter 12 1 If a net electric charge (Q) flows through a cross-section of a conductor in time t, then, Electricity Class 10 Notes Science Chapter 12 2 Where I is electric current, Q is a net charge and t is a time in second. S.I. Unit of Electric Charge and Current: S.I. unit of electric charge is coulomb (C). One coulomb is nearly equal to 6 × 1018 electrons. S.I. unit of electric current is ampere (A). Ampere is the flow of electric charge through a surface at the rate of one coulomb per second. This means, if 1 coulomb of electric charge flows through a cross section for 1 second, it would be equal to 1 ampere. Therefore, 1 A = 1 C/1 s Small Quantity of Electric Current: Small quantity of electric current is expressed in milliampere and microampere. Milliampere is written as mA and microampere as pA. 1 mA (milliampere) = 10-3 A 1 pA (microampere) = 10-6 A Ammeter: An apparatus to measure electric current in a circuit., Charge: Like mass, the charge is the fundamental property of matter. There are two types of charge (i) Positive charge. (ii) Negative charge. Positive and Negative Charge: The charge acquired by a glass rod when rubbed with silk is called a positive charge and the charge acquired by an ebonite rod when rubbed with wool is called negative charge. Properties of Electric Charge: (i) Unlike charges attract each other and like charges repel each other. (ii) The.force between two charges varies directly as the product of two charges and inversely as the square of the distance (r) between both charges (q1 and q2). Electricity Class 10 Notes Science Chapter 12 3 S.I. unit of charge is coulomb (C). 1 coulomb = 1 ampere × 1 second. 1C = 1A × 1s Thus, the quantity of charge which flows through a circuit when one ampere of current flows through it in one second is known as a 1-coulomb charge. Electric Potential and Potential Difference Electric Potential: The amount of electric potential energy at a point is called electric potential. Potential Difference: The difference in the amount of electric potential energy between two points in an electric circuit is called electric potential difference. Electric potential difference is known as voltage, which is equal to the amount of work done to move the unit charge between two points against static electric field. Therefore, Voltage = WorkdoneCharge Voltage or electric potential difference is denoted by V’. Therefore, V = WQ Where, W = Work done and Q = Charge S.I. Unit of Electric Potential Difference (Voltage) S.I. unit of electric potential difference is volt and denoted by ‘V’ This is named in honour of Italian Physicist Alessandro Volta. Since joule is the unit of work and Coulomb is the unit of charge, 1 volt of electric potential difference is equal to the 1 joule of work to be done to move a charge of 1 coulomb from one point to another in an electric circuit. Therefore 1V = 1Joule/1Coulomb = 1J/1C 1V = 1JC-1 Voltmeter: An apparatus to measure the potential difference or electric potential difference between two points in an electric circuit. Galvanometer: It is a device to detect current in an electric circuit. Ohm’s Law: Ohm’s Law states that the potential difference between two points is directly proportional to the electric current, at a constant temperature. This means potential difference V varies as electric current. V ∝ I V = RI I = VR R = VI Where, R is constant for the given conductor at a given temperature and is called resistance. Resistance: Resistance is the property of conductor which resists the flow of electric current through it. S.I. unit of resistance is ohm. Ohm is denoted by Greek letter ‘Q’ 1 Ohm: 1 ohm (Q) of resistance (R) is equal to the flow 1A of current through a conductor between two points having a potential difference equal to 1V. This means; 1Ω = 1V1A From the expression of Ohm’s Law, it is obvious that electric current through a resistor is inversely proportional to resistance. This means electric current will decrease with an increase in resistance and vice versa. The graph of V (potential difference) versus I (electric current) is always a straight line. Electricity Class 10 Notes Science Chapter 12 4 Graph of Potential Difference (V) Vs Electric Current (I) Voltage, i.e. Potential diffrence (V) = ? We know, from Ohm’s Law that, R = VI 15 Ω = V15A V = 225V Resistance: Resistance is a property of conductor due to which it resists the flow of electric current through it. A component that is used to resist the flow of electric current in a circuit is called a resistor. In practical application, resistors are used to increase or decrease the electric current. Variable Resistance: The component of an electric circuit which is used to regulate the current, without changing the voltage from the source, is called variable resistance. Rheostat: This is a device which is used in a circuit to provide variable resistance. Cause of Resistance in a Conductor: Flow of electrons in a conductor is electric current. The positive particles of conductor create hindrance to flow of electrons, because of attraction between them, this hindrance is the cause of resistance in the flow of electricity. Factors on Which Resistance of a Conductor Depends: Resistance in a conductor depends on nature, length and area of cross section of the conductor. (i) Nature of Material: Some materials create least hindrance and hence, are called good conductors. Silver is the best conductor of electricity. While some other materials create more hindrance in the flow of electric current, i.e. flow of electrons through them. Such materials are called bad conductors. Bad conductor are also known as insulators. Hard plastic is the one of the best insulators of electricity. (ii) Length of Conductor: Resistance (R) is directly proportional to the length of the conductor. This means, resistance increases with increase in length of the conductor. This is the cause that long electric wires create more resistance to the electric current. Thus, Resistance (R) ∝ length of conductor (l) or, R ∝ l …(i) (iii) Area of Cross Section: Resistance R is inversely proportional to the area of cross section (A) of the conductor. This means R will decrease with an increase in the area of conductor and vice versa. More area of conductor facilitates the flow of electric current through more area and thus, decreases the resistance. This is the cause that thick copper wire creates less resistance to the electric current. Thus, resistance (R) ∝ 1/Area of cross section of conductor (A) or, R ∝ lA ….(ii) From equations (i) and (ii) R ∝ lA R = ρ lA Where, ρ (rho) is the proportionality constant. It is called the electrical resistivity of the material of conductor. From equation (iii) RA = ρl ⇒ ρ = RAl ..(iv) The S.I. of Resistivity: Since, the S.I. unit of R is Q, S.I. unit of area is m2 and S.I. unit of length is m. Hence, unit of resistivity (ρ) = Ω×m2m = Ωm Thus, S.I. unit of resistivity (ρ) is Ωm. Resistivity: It is defined as the resistance offered by a cube of a material of side 1m when current flows perpendicular to its opposite faces. It’s S.I. unit is ohm-meter (Ωm). Resistivity, ρ = RAl Resistivity is also known as specific resistance. Resistivity depends on the nature of the material of the conductor. Materials having a resistivity in the range of 10-8 Ωm to 10-6 Ωm are considered as very good conductors. Silver has resistivity equal to 1.60 × 10-8 Ωm and copper has resistivity equal to 1.62 × 10-8 Ωm. Rubber and glass are very good insulators. They have a resistivity in the order of 10-12 Ωm to 10-8 Ωm. The resistivity of materials varies with temperature. Combination of resistors (Series and Parallel combination), the heating effect of electric current and electric power. Combination of Resistors (i) Series combination (ii) Parallel combination. 1. Resistors in Series: When resistors are joined from end to end, it is called in series. In this case, the total resistance of the system is equal to the sum of the resistance of all the resistors in the system. Electricity Class 10 Notes Science Chapter 12 5 Let, three resistors R1, R2, and R3 get connected in series. Potential difference across A and B = V Potential difference across R1, R2 and R3 = V1, V2 and V3 Current flowing through the combination = I We, know that V= V1 + V2 + V3 …. (i) According to Ohm’s Law : V1 = IR1, V2 = IR2 and V3 = IR3 ….. (ii) Let, total resistance = Rs Then, V = IRs …(iii) From equations (i) and (ii) and (iii) IRs = IR1 + IR2 + IR3 Rs = R1 + R2 + R3 When the resistors are connected in series, the current flowing through each resistor is the same and is equal to the total current. 2. Resistors in Parallel: When resistors are joined in parallel, the reciprocal of the total resistance of the system is equal to the sum of reciprocal of the resistance of resistors. Electricity Class 10 Notes Science Chapter 12 6 Let three resistors R1, R2 and R3 connected in parallel. Potential difference across point A and B = V Total current flowing between point A and B = I Currents flowing through resistors R1, R2 and R3 = I1, I2 and I3 respectively. We, know that, I = I1 + I2 + I3 …….(i) Since, the potential difference across R1, R2, and R3 is the same = V According to Ohm’s Law, Electricity Class 10 Notes Science Chapter 12 7 In parallel combination, the potential difference across each resistor is the same and is equal to the total potential difference. The total current through the circuit can be calculated by adding the electric current through individual resistors. Itotal = 6A + 48A + 30A + 12A + 24A = 120A Heating Effect of Electric Current: When electric current is supplied to a purely resistive conductor, the energy of electric current is dissipated entirely in the form of heat and as a result, resistor gets heated. The heating of resistor because of dissipation of electrical energy is commonly known as Heating Effect of Electric Current. Some examples are as follows : When electric energy is supplied to an electric bulb, the filament gets heated because of which, it gives light. The heating of electric bulb happens because of heating effect of electric current. Cause of Heating Effect of Electric Current: Electric current generates heat to overcome the resistance offered by the conductor through which it passes. Higher the resistance, the electric current will generate higher amount of heat. Thus, generation of heat by electric current while passing through a conductor is an inevitable consequence. This heating effect is used in many appliances, such as electric iron, electric heater, electric geyser, etc. Joule’s Law Of Heating: Let, an electric current, I is flowing through a resistor having resistance = R. The potential difference through the resistor is = V. The charge, Q flows through the circuit for the time, t Thus, work done in moving of charge (Q) of potential difference (V), W = V × Q Since this charge, Q flows through the circuit for time t Therefore, power input (P) to the circuit can be given by the following equation : P = WT P = V × Qt …..(i) We know, electric current, I = Qt Substituting Qt = I in equation (i), we get, P = VI …(ii) i.e., P = VI Since, the electric energy is supplied for time ?, thus, after multiplying both sides of equation (ii) by time t, we get, P × t = VI × t = VIt ……(iii) i.e., P = VIt Thus, for steady current I, the heat produced (H) in time t is equal to VIt H = VIt i.e., H = VIt We know, according to Ohm’s Law, V = IR By substituting this value of V in equation (iii), we get, H = IR × It H = I2Rt ……(iv) The expression (iv) is known as Joule’s Law of Heating, which states that heat produced in a resistor is directly proportional to the square of current given to the resistor, directly proportional to the resistance for a given current and directly proportional to the time for which the current is flowing through the resistor. Electric Bulb: In an electric bulb, the filament of bulb gives light because of the heating effect of electricity. The filament of bulb is generally, made of tungsten metal, having melting point equal to 3380°C. Electric Iron: The element of electric iron is made of alloys having high melting poir^ Electric heater and geyser work on the same mechanism. Electric Fuse: Electric fuse is used to protect the electric appliances from high voltage if any. Electric fuse is made of metal or alloy of metals, such as aluminum, copper, iron, lead, etc. In the case of flow of higher voltage than specified, fuse wire melts and protect the electric appliances. Fuse of 1A, 2A, 3A, 5A, 10A, etc., used for domestic purpose. Suppose, if an electric heater consumes 1000W at 220 V. Then electric current in circuit I = PV I = 1000W220V = 4.5 A Thus, in this case of 5A should be used to protect the electric heater in the flow of higher voltage. Electric Power S.I. unit of electric power is watt (W). 1W = 1 volt × 1 ampere = 1V × 1A I kilowatt or 1kW = 1000 W Consumption of electricity (electric energy) is generally measured in kilowatt. Unit of electric energy is kilowatt-hour (kWh). 1 kWh = 1000 watt × 1 hour = 1 unit = 1000 W × 3600 s 1 kWh = 3.6 x 106 watt second = 3.6 × 106 J Conductor: The material which can allow the flow of electrons through itself is called the conductor. It has a large number of free electrons. It offers low opposition in the flow of current. Insulator: The material which does not allow the flow of electrons through itself is called insulator. It has less or no free electrons. It offers high opposition in the flow of current. Electric Current: The amount of flow charge through any cross-sectional area of a conductor in unity time is called Electric Current. It is represented by ‘I’ I = QT Unit of Electric Current: It is CS-1 (coulomb per second) or Ampere (A). Electric Current is a scalar quantity. It is measured by an ammeter. Direction: The direction of conventional current (or practical current) is opposite to the flow of electrons. Electric potential: Electric Potential at any point in the electric field is defined as the amount of work done to bring the unit positive charge from infinity (from outside the electric field) to that point. V =WQ, S.I. unit of Electric Potential is JC-1 or volt (V). It is a scalar quantity. The +ve charge flows from higher to lower potential. The -ve charge flows from lower to a higher potential. The difference of electric potential between any two points in the electric field is called Electric Potential difference. It is known as a voltage which is equal to the work done per unit charge between two points against the static electric field. VAB = VA – VB = WABQ Electric Potential difference is measured by a voltmeter. Ohm’s Law: According to this law “Under the constant physical condition the potential difference across the conductor is directly proportional to the current flowing through the conductor.” V ∝ I V = IR …[Where R is proportionality constant called resistance of conductor] ⇒ I = VR R depends upon nature, geometry and physical condition of the conductor. The heat generated by electric current: The potential difference between two points in an electrical field is equal to the work done in moving a unit charge from one point to another. Then, work is done, W = VQ and Q = I × t W = V × I × t From Ohm’s Law, we know that V = IR W = IR × I × t = I2.Rt Since heat produced by the electric current is equal to work done, W H = W ⇒ H (heat) = I2Rt Joule. Resistance: Ratio of the applied voltage to the current flowing in the conductor is called resistance of the conductor. ⇒ R = VI S.I. Unit of resistance is VA-1 or ohm (Ω). Resistance is the opposition offered by the conductor in the flow of current. Practically it is R ∝ L (L is the length of a conductor) R ∝ 1/A (A is the area of a conductor) So, R ∝ L/A R = ρL/A …[Where p is proportionality constant called specific resistance of conductor It only depend upon nature (material) and temperature of conductor. Specific resistance or Resistivity = ρ = RA /L It’s S.I. Unit is Qm Combination of resistance: In this combination the current across every component is same but potential across every component is different. If resistance R1, R2 and R3 are connected in series with a battery of Potential V, then equivalence resistance of the combination R = R1 + R2 + R3 The parallel combination of resistance: In this combination the current across every component is different. But potential across every component is the same. If resistance R1, R2 and R3 are connected in parallel with a battery of Potential V, then equivalence resistance of combination 1R=1R1+1R2+1R3 Electric Energy is amount of work done to maintain the continuous flow of electric current in the circuit. Its S.I. unit is joule (J). Electric power (P): The electric work done per unit time is called electric power. Electric Power = ElectricworkdoneTimetaken or P = Wt Electric power is also defined as the electric energy consumed per unit time. P = Et S.I. unit of electric power is Watt. When one joule of energy is used for one second, electric power is equal to one watt. Derivation of formula for electric power: We know that electric work done, W = V × I × t or P = VItt P = VI Electric power in watts = Volts × ampere Also V = IR …[According to Ohm’s Law] So P = IR × I P = I2R We know that I = VR P = (VR)2 × R = V2R Watt The maximum value of electric current that can pass through an electric appliance without damaging electric appliance is called current rating of electric applianc

by pseudepodia in the process of holozoic nutrition

Amoeba takes its nutrition through a process called phagocytosis where the entire organism swallows the food it plans on eating up. The mode through which an amoeba engulfs nutrition is known asholozoic nutrition

Holozoic mode of nutrition

Hetrotropic nutrition

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Tell me about acid , base and salts

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Acid + base = salt + water ( neutralization reaction)

1》 the angle of Incident is equal to angle of Reflection.. 2 》 the Incident ray , the Reflected ray and the Normal lies on the same plane.. ( hope it will be helpful)

1. The angle between the incident ray and the reflected ray is equal. 2. The incident ray and reflected ray lie on the same line.