Efektivitas Strategi Ta’bir Mushawwar dalam Pembelajaran Bahasa Arab di Madrasah Ibtidaiyah
Abstract
Speaking proficiency is one of the main skills in Arabic language learning, but fourth grade students of MI TPI Keramat face difficulties in assembling mufradat and practicing active conversation, mainly due to the lack of varied learning strategies. This study aims to analyze the effectiveness of the ta'bir mushawwar strategy, which uses picture as a media to facilitate students in constructing sentences and telling stories, in improving Arabic speaking skills. With a quantitative approach and pre-experiment design, this study involved 18 students of class IV-C. Data were collected through tests, observations, and interviews, then analyzed descriptively and N-Gain test. The posttest average was 83.06 (very good category) with 88.9% completeness, and the N-Gain score was 0.6398 which showed effectiveness in the medium category. The ta'bir mushawwar strategy offers a solution in the form of a visual and hands-on learning approach that can significantly improve students' speaking skills and make learning more interesting and interactive.
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# Access WeakSet through the weakref module. # This code is separated-out because it is needed # by abc.py to load everything else at startup. from _weakref import ref from types import GenericAlias __all__ = ['WeakSet'] class _IterationGuard: # This context manager registers itself in the current iterators of the # weak container, such as to delay all removals until the context manager # exits. # This technique should be relatively thread-safe (since sets are). def __init__(self, weakcontainer): # Don't create cycles self.weakcontainer = ref(weakcontainer) def __enter__(self): w = self.weakcontainer() if w is not None: w._iterating.add(self) return self def __exit__(self, e, t, b): w = self.weakcontainer() if w is not None: s = w._iterating s.remove(self) if not s: w._commit_removals() class WeakSet: def __init__(self, data=None): self.data = set() def _remove(item, selfref=ref(self)): self = selfref() if self is not None: if self._iterating: self._pending_removals.append(item) else: self.data.discard(item) self._remove = _remove # A list of keys to be removed self._pending_removals = [] self._iterating = set() if data is not None: self.update(data) def _commit_removals(self): l = self._pending_removals discard = self.data.discard while l: discard(l.pop()) def __iter__(self): with _IterationGuard(self): for itemref in self.data: item = itemref() if item is not None: # Caveat: the iterator will keep a strong reference to # `item` until it is resumed or closed. yield item def __len__(self): return len(self.data) - len(self._pending_removals) def __contains__(self, item): try: wr = ref(item) except TypeError: return False return wr in self.data def __reduce__(self): return (self.__class__, (list(self),), getattr(self, '__dict__', None)) def add(self, item): if self._pending_removals: self._commit_removals() self.data.add(ref(item, self._remove)) def clear(self): if self._pending_removals: self._commit_removals() self.data.clear() def copy(self): return self.__class__(self) def pop(self): if self._pending_removals: self._commit_removals() while True: try: itemref = self.data.pop() except KeyError: raise KeyError('pop from empty WeakSet') from None item = itemref() if item is not None: return item def remove(self, item): if self._pending_removals: self._commit_removals() self.data.remove(ref(item)) def discard(self, item): if self._pending_removals: self._commit_removals() self.data.discard(ref(item)) def update(self, other): if self._pending_removals: self._commit_removals() for element in other: self.add(element) def __ior__(self, other): self.update(other) return self def difference(self, other): newset = self.copy() newset.difference_update(other) return newset __sub__ = difference def difference_update(self, other): self.__isub__(other) def __isub__(self, other): if self._pending_removals: self._commit_removals() if self is other: self.data.clear() else: self.data.difference_update(ref(item) for item in other) return self def intersection(self, other): return self.__class__(item for item in other if item in self) __and__ = intersection def intersection_update(self, other): self.__iand__(other) def __iand__(self, other): if self._pending_removals: self._commit_removals() self.data.intersection_update(ref(item) for item in other) return self def issubset(self, other): return self.data.issubset(ref(item) for item in other) __le__ = issubset def __lt__(self, other): return self.data < set(map(ref, other)) def issuperset(self, other): return self.data.issuperset(ref(item) for item in other) __ge__ = issuperset def __gt__(self, other): return self.data > set(map(ref, other)) def __eq__(self, other): if not isinstance(other, self.__class__): return NotImplemented return self.data == set(map(ref, other)) def symmetric_difference(self, other): newset = self.copy() newset.symmetric_difference_update(other) return newset __xor__ = symmetric_difference def symmetric_difference_update(self, other): self.__ixor__(other) def __ixor__(self, other): if self._pending_removals: self._commit_removals() if self is other: self.data.clear() else: self.data.symmetric_difference_update(ref(item, self._remove) for item in other) return self def union(self, other): return self.__class__(e for s in (self, other) for e in s) __or__ = union def isdisjoint(self, other): return len(self.intersection(other)) == 0 def __repr__(self): return repr(self.data) __class_getitem__ = classmethod(GenericAlias)
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