Chapter 4
π§ͺ Chemistry Β· Class 12
PROGRESS Β· 0 / 580%
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Example 4.01 Scandium Vs Zinc Transition Element
Example_4.01_scandium_vs_zinc_transition_element
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Example 4.02 Atomisation Enthalpy Transition Metals
Example_4.02_atomisation_enthalpy_transition_metals
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Example 4.03 Single Oxidation State Scandium
Example_4.03_single_oxidation_state_scandium
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Example 4.04 Cr Reducing Vs Mn Oxidising D Configuration
Example_4.04_cr_reducing_vs_mn_oxidising_d_configuration
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Example 4.05 Oxidising Power Oxoanions
Example_4.05_oxidising_power_oxoanions
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Example 4.06 Standard Reduction Potential M2plus M
Example_4.06_standard_reduction_potential_m2plus_m
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Example 4.07 Mn3plus Mn2plus Reduction Potential
Example_4.07_mn3plus_mn2plus_reduction_potential
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Example 4.08 Magnetic Moment Mn2plus
Example_4.08_magnetic_moment_mn2plus
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Example 4.09 Disproportionation Oxidation State
Example_4.09_disproportionation_oxidation_state
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Example 4.10 Lanthanoid Plus4 Cerium
Example_4.10_lanthanoid_plus4_cerium
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Intext 4.01 Silver Transition Element
Intext_4.01_silver_transition_element
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Intext 4.02 Zinc Lowest Atomisation Enthalpy
Intext_4.02_zinc_lowest_atomisation_enthalpy
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Intext 4.03 Most Oxidation States 3d Series
Intext_4.03_most_oxidation_states_3d_series
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Intext 4.04 Copper Positive Reduction Potential
Intext_4.04_copper_positive_reduction_potential
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Intext 4.05 Ionisation Enthalpy Irregular Variation
Intext_4.05_ionisation_enthalpy_irregular_variation
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Intext 4.06 Highest Os Oxide Fluoride Only
Intext_4.06_highest_os_oxide_fluoride_only
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Intext 4.07 Cr2plus Vs Fe2plus Reducing Agent
Intext_4.07_cr2plus_vs_fe2plus_reducing_agent
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Intext 4.08 Magnetic Moment Co2plus Z27
Intext_4.08_magnetic_moment_co2plus_z27
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Intext 4.09 Cuprous Ion Instability Aqueous
Intext_4.09_cuprous_ion_instability_aqueous
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Intext 4.10 Actinoid Vs Lanthanoid Contraction
Intext_4.10_actinoid_vs_lanthanoid_contraction
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Problem 4.01 Electronic Configurations Ions
Problem_4.01_electronic_configurations_ions
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Problem 4.02 Mn2plus Fe2plus Stability Oxidation
Problem_4.02_mn2plus_fe2plus_stability_oxidation
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Problem 4.03 Plus2 State Stability First Half
Problem_4.03_plus2_state_stability_first_half
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Problem 4.04 Electronic Config Os Stability
Problem_4.04_electronic_config_os_stability
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Problem 4.05 Stable Os For D Configurations
Problem_4.05_stable_os_for_d_configurations
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Problem 4.06 Oxometal Anions Group Number
Problem_4.06_oxometal_anions_group_number
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Problem 4.07 Lanthanoid Contraction Consequences
Problem_4.07_lanthanoid_contraction_consequences
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Problem 4.08 Transition Element Characteristics
Problem_4.08_transition_element_characteristics
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Problem 4.09 Transition Vs Nontransition Config
Problem_4.09_transition_vs_nontransition_config
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Problem 4.10 Lanthanoid Oxidation States
Problem_4.10_lanthanoid_oxidation_states
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Problem 4.11 Paramagnetism Catalysis Transition Metals
Problem_4.11_paramagnetism_catalysis_transition_metals
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Problem 4.12 Interstitial Compounds
Problem_4.12_interstitial_compounds
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Problem 4.13 Oxidation State Variability
Problem_4.13_oxidation_state_variability
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Problem 4.14 K2cr2o7 Preparation Ph Effect
Problem_4.14_k2cr2o7_preparation_ph_effect
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Problem 4.15 Dichromate Oxidising Ionic Equations
Problem_4.15_dichromate_oxidising_ionic_equations
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Problem 4.16 Kmno4 Preparation Reactions
Problem_4.16_kmno4_preparation_reactions
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Problem 4.17 Standard Reduction Potentials
Problem_4.17_standard_reduction_potentials
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Problem 4.18 Coloured Ions Aqueous Solution
Problem_4.18_coloured_ions_aqueous_solution
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Problem 4.19 Plus2 State Stability Comparison
Problem_4.19_plus2_state_stability_comparison
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Problem 4.20 Actinoids Vs Lanthanoids Comparison
Problem_4.20_actinoids_vs_lanthanoids_comparison
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Problem 4.21 Cr Reducing Mn Oxidising D Configuration Stability
Problem_4.21_cr_reducing_mn_oxidising_d_configuration_stability
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Problem 4.22 Disproportionation Examples
Problem_4.22_disproportionation_examples
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Problem 4.23 Copper Plus1 Oxidation State
Problem_4.23_copper_plus1_oxidation_state
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Problem 4.24 Unpaired Electrons Mn3plus Cr3plus
Problem_4.24_unpaired_electrons_mn3plus_cr3plus
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Problem 4.25 Oxide Acidity Basicity Trend
Problem_4.25_oxide_acidity_basicity_trend
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Problem 4.26 K2cr2o7 Kmno4 Preparation Steps
Problem_4.26_k2cr2o7_kmno4_preparation_steps
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Problem 4.27 Alloys Mischmetall Lanthanoids
Problem_4.27_alloys_mischmetall_lanthanoids
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Problem 4.28 Inner Transition Elements
Problem_4.28_inner_transition_elements
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Problem 4.29 Actinoid Oxidation State Variability
Problem_4.29_actinoid_oxidation_state_variability
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Problem 4.30 Last Actinoid Lawrencium
Problem_4.30_last_actinoid_lawrencium
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Problem 4.31 Ce3plus Magnetic Moment
Problem_4.31_ce3plus_magnetic_moment
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Problem 4.32 Lanthanoid Plus4 Plus2 States
Problem_4.32_lanthanoid_plus4_plus2_states
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Problem 4.33 Actinoids Lanthanoids Chemistry
Problem_4.33_actinoids_lanthanoids_chemistry
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Problem 4.34 Electronic Configs Z61 91 101 109
Problem_4.34_electronic_configs_z61_91_101_109
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Problem 4.35 First Vs Second Third Transition Series
Problem_4.35_first_vs_second_third_transition_series
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Problem 4.36 3d Electrons Octahedral Occupancy
Problem_4.36_3d_electrons_octahedral_occupancy
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Problem 4.37 First Series Different From Heavier
Problem_4.37_first_series_different_from_heavier
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Problem 4.38 Magnetic Moment Complex Species
Problem_4.38_magnetic_moment_complex_species
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